Your search keyword '"Koch, Eric W."' showing total 58 results

1. PHANGS-ML: dissecting multiphase gas and dust in nearby galaxies using machine learning

Author

Baron, Dalya, Sandstrom, Karin M., Rosolowsky, Erik, Egorov, Oleg V., Klessen, Ralf S., Leroy, Adam K., Boquien, Médéric, Schinnerer, Eva, Belfiore, Francesco, Groves, Brent, Chastenet, Jérémy, Dale, Daniel A., Blanc, Guillermo A., Méndez-Delgado, José E., Koch, Eric W., Grasha, Kathryn, Chevance, Mélanie, Thilker, David A., Colombo, Dario, Williams, Thomas G., Pathak, Debosmita, Sutter, Jessica, Brown, Toby, Wu, John F., Peek, J. E. G., Emsellem, Eric, Larson, Kirsten L., Neumann, Justus, Baron, Dalya, Sandstrom, Karin M., Rosolowsky, Erik, Egorov, Oleg V., Klessen, Ralf S., Leroy, Adam K., Boquien, Médéric, Schinnerer, Eva, Belfiore, Francesco, Groves, Brent, Chastenet, Jérémy, Dale, Daniel A., Blanc, Guillermo A., Méndez-Delgado, José E., Koch, Eric W., Grasha, Kathryn, Chevance, Mélanie, Thilker, David A., Colombo, Dario, Williams, Thomas G., Pathak, Debosmita, Sutter, Jessica, Brown, Toby, Wu, John F., Peek, J. E. G., Emsellem, Eric, Larson, Kirsten L., and Neumann, Justus

Abstract

The PHANGS survey uses ALMA, HST, VLT, and JWST to obtain an unprecedented high-resolution view of nearby galaxies, covering millions of spatially independent regions. The high dimensionality of such a diverse multi-wavelength dataset makes it challenging to identify new trends, particularly when they connect observables from different wavelengths. Here we use unsupervised machine learning algorithms to mine this information-rich dataset to identify novel patterns. We focus on three of the PHANGS-JWST galaxies, for which we extract properties pertaining to their stellar populations; warm ionized and cold molecular gas; and Polycyclic Aromatic Hydrocarbons (PAHs), as measured over 150 pc-scale regions. We show that we can divide the regions into groups with distinct multiphase gas and PAH properties. In the process, we identify previously-unknown galaxy-wide correlations between PAH band and optical line ratios and use our identified groups to interpret them. The correlations we measure can be naturally explained in a scenario where the PAHs and the ionized gas are exposed to different parts of the same radiation field that varies spatially across the galaxies. This scenario has several implications for nearby galaxies: (i) The uniform PAH ionized fraction on 150 pc scales suggests significant self-regulation in the ISM, (ii) the PAH 11.3/7.7 \mic~ band ratio may be used to constrain the shape of the non-ionizing far-ultraviolet to optical part of the radiation field, and (iii) the varying radiation field affects line ratios that are commonly used as PAH size diagnostics. Neglecting this effect leads to incorrect or biased PAH sizes., Comment: Main results in figures 6 and 12. Submitted to ApJ, and comments are welcome!

Published

2024

2. PHANGS-JWST: Data Processing Pipeline and First Full Public Data Release

Author

Williams, Thomas G., Lee, Janice C., Larson, Kirsten L., Leroy, Adam K., Sandstrom, Karin, Schinnerer, Eva, Thilker, David A., Belfiore, Francesco, Egorov, Oleg V., Rosolowsky, Erik, Sutter, Jessica, DePasquale, Joseph, Pagan, Alyssa, Anand, Gagandeep S., Barnes, Ashley T., Bigiel, Frank, Boquien, Médéric, Cao, Yixian, Chastenet, Jérémy, Chevance, Mélanie, Chown, Ryan, Dale, Daniel A., Eibensteiner, Cosima, Emsellem, Eric, Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Hannon, Stephen, Hassani, Hamid, Henshaw, Jonathan D., Jiménez-Donaire, María J., Kim, Jaeyeon, Klessen, Ralf S., Koch, Eric W., Li, Jing, Liu, Daizhong, Meidt, Sharon E., Méndez-Delgado, J. Eduardo, Murphy, Eric J., Neumann, Justus, Neumann, Lukas, Neumayer, Nadine, Oakes, Elias K., Pathak, Debosmita, Pety, Jérôme, Pinna, Francesca, Querejeta, Miguel, Ramambason, Lise, Romanelli, Andrea, Sormani, Mattia C., Stuber, Sophia K., Sun, Jiayi, Teng, Yu-Hsuan, Usero, Antonio, Watkins, Elizabeth J., Weinbeck, Tony D., Williams, Thomas G., Lee, Janice C., Larson, Kirsten L., Leroy, Adam K., Sandstrom, Karin, Schinnerer, Eva, Thilker, David A., Belfiore, Francesco, Egorov, Oleg V., Rosolowsky, Erik, Sutter, Jessica, DePasquale, Joseph, Pagan, Alyssa, Anand, Gagandeep S., Barnes, Ashley T., Bigiel, Frank, Boquien, Médéric, Cao, Yixian, Chastenet, Jérémy, Chevance, Mélanie, Chown, Ryan, Dale, Daniel A., Eibensteiner, Cosima, Emsellem, Eric, Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Hannon, Stephen, Hassani, Hamid, Henshaw, Jonathan D., Jiménez-Donaire, María J., Kim, Jaeyeon, Klessen, Ralf S., Koch, Eric W., Li, Jing, Liu, Daizhong, Meidt, Sharon E., Méndez-Delgado, J. Eduardo, Murphy, Eric J., Neumann, Justus, Neumann, Lukas, Neumayer, Nadine, Oakes, Elias K., Pathak, Debosmita, Pety, Jérôme, Pinna, Francesca, Querejeta, Miguel, Ramambason, Lise, Romanelli, Andrea, Sormani, Mattia C., Stuber, Sophia K., Sun, Jiayi, Teng, Yu-Hsuan, Usero, Antonio, Watkins, Elizabeth J., and Weinbeck, Tony D.

Abstract

The exquisite angular resolution and sensitivity of JWST is opening a new window for our understanding of the Universe. In nearby galaxies, JWST observations are revolutionizing our understanding of the first phases of star formation and the dusty interstellar medium. Nineteen local galaxies spanning a range of properties and morphologies across the star-forming main sequence have been observed as part of the PHANGS-JWST Cycle 1 Treasury program at spatial scales of $\sim$5-50pc. Here, we describe pjpipe, an image processing pipeline developed for the PHANGS-JWST program that wraps around and extends the official JWST pipeline. We release this pipeline to the community as it contains a number of tools generally useful for JWST NIRCam and MIRI observations. Particularly for extended sources, pjpipe products provide significant improvements over mosaics from the MAST archive in terms of removing instrumental noise in NIRCam data, background flux matching, and calibration of relative and absolute astrometry. We show that slightly smoothing F2100W MIRI data to 0.9" (degrading the resolution by about 30 percent) reduces the noise by a factor of $\approx$3. We also present the first public release (DR1.0.1) of the pjpipe processed eight-band 2-21 $\mu$m imaging for all nineteen galaxies in the PHANGS-JWST Cycle 1 Treasury program. An additional 55 galaxies will soon follow from a new PHANGS-JWST Cycle 2 Treasury program., Comment: 50 pages (27 in Appendices), 54 Figures (39 in Appendices), 2 Tables. Submitted to ApJS. Data available at https://archive.stsci.edu/hlsp/phangs/phangs-jwst

Published

2024

3. Hidden Gems on a Ring: Infant Massive Clusters and Their Formation Timeline Unveiled by ALMA, HST, and JWST in NGC 3351

Author

Sun, Jiayi, He, Hao, Batschkun, Kyle, Levy, Rebecca C., Emig, Kimberly, Rodriguez, M. Jimena, Hassani, Hamid, Leroy, Adam K., Schinnerer, Eva, Ostriker, Eve C., Wilson, Christine D., Bolatto, Alberto D., Mills, Elisabeth A. C., Rosolowsky, Erik, Lee, Janice C., Dale, Daniel A., Larson, Kirsten L., Thilker, David A., Ubeda, Leonardo, Whitmore, Bradley C., Williams, Thomas G., Barnes, Ashley. T., Bigiel, Frank, Chevance, Melanie, Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Henshaw, Jonathan D., Indebetouw, Remy, Jimenez-Donaire, Maria J., Klessen, Ralf S., Koch, Eric W., Liu, Daizhong, Mathur, Smita, Meidt, Sharon, Menon, Shyam H., Neumann, Justus, Pinna, Francesca, Querejeta, Miguel, Sormani, Mattia C., Tress, Robin G., Sun, Jiayi, He, Hao, Batschkun, Kyle, Levy, Rebecca C., Emig, Kimberly, Rodriguez, M. Jimena, Hassani, Hamid, Leroy, Adam K., Schinnerer, Eva, Ostriker, Eve C., Wilson, Christine D., Bolatto, Alberto D., Mills, Elisabeth A. C., Rosolowsky, Erik, Lee, Janice C., Dale, Daniel A., Larson, Kirsten L., Thilker, David A., Ubeda, Leonardo, Whitmore, Bradley C., Williams, Thomas G., Barnes, Ashley. T., Bigiel, Frank, Chevance, Melanie, Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Henshaw, Jonathan D., Indebetouw, Remy, Jimenez-Donaire, Maria J., Klessen, Ralf S., Koch, Eric W., Liu, Daizhong, Mathur, Smita, Meidt, Sharon, Menon, Shyam H., Neumann, Justus, Pinna, Francesca, Querejeta, Miguel, Sormani, Mattia C., and Tress, Robin G.

Abstract

We study young massive clusters (YMCs) in their embedded "infant" phase with $\sim0.\!^{\prime\prime}1$ ALMA, HST, and JWST observations targeting the central starburst ring in NGC 3351, a nearby Milky Way analog galaxy. Our new ALMA data reveal 18 bright and compact (sub-)millimeter continuum sources, of which 8 have counterparts in JWST images and only 6 have counterparts in HST images. Based on the ALMA continuum and molecular line data, as well as ancillary measurements for the HST and JWST counterparts, we identify 14 sources as infant star clusters with high stellar and/or gas masses (${\sim}10^5\;\mathrm{M_\odot}$), small radii (${\lesssim}\,5\;\mathrm{pc}$), large escape velocities ($6{-}10\;\mathrm{km/s}$), and short free-fall times ($0.5{-}1\;\mathrm{Myr}$). Their multiwavelength properties motivate us to divide them into four categories, likely corresponding to four evolutionary stages from starless clumps to exposed HII region-cluster complexes. Leveraging age estimates for HST-identified clusters in the same region, we infer an evolutionary timeline going from $\sim$1-2 Myr before cluster formation as starless clumps, to $\sim$4-6 Myr after as exposed HII region-cluster complexes. Finally, we show that the YMCs make up a substantial fraction of recent star formation across the ring, exhibit an non-uniform azimuthal distribution without a very coherent evolutionary trend along the ring, and are capable of driving large-scale gas outflows., Comment: 27 pages, 12 figures; ApJ accepted

Published

2024

4. The Panchromatic Hubble Andromeda Treasury: Triangulum Extended Region (PHATTER). V. The Structure of M33 in Resolved Stellar Populations

Author

Smercina, Adam, Dalcanton, Julianne J., Williams, Benjamin F., Durbin, Meredith J., Lazzarini, Margaret, Bell, Eric F., Choi, Yumi, Dolphin, Andrew, Gilbert, Karoline, Guhathakurta, Puragra, Koch, Eric W., Rix, Hans-Walter, Rosolowsky, Erik, Seth, Anil, Skillman, Evan D., Weisz, Daniel R., Smercina, Adam, Dalcanton, Julianne J., Williams, Benjamin F., Durbin, Meredith J., Lazzarini, Margaret, Bell, Eric F., Choi, Yumi, Dolphin, Andrew, Gilbert, Karoline, Guhathakurta, Puragra, Koch, Eric W., Rix, Hans-Walter, Rosolowsky, Erik, Seth, Anil, Skillman, Evan D., and Weisz, Daniel R.

Abstract

We present a detailed analysis of the the structure of the Local Group flocculent spiral galaxy M33, as measured using the Panchromatic Hubble Andromeda Treasury Triangulum Extended Region (PHATTER) survey. Leveraging the multiwavelength coverage of PHATTER, we find that the oldest populations are dominated by a smooth exponential disk with two distinct spiral arms and a classical central bar $-$ completely distinct from what is seen in broadband optical imaging, and the first-ever confirmation of a bar in M33. We estimate a bar extent of $\sim$1 kpc. The two spiral arms are asymmetric in orientation and strength, and likely represent the innermost impact of the recent tidal interaction responsible for M33's warp at larger scales. The flocculent multi-armed morphology for which M33 is known is only visible in the young upper main sequence population, which closely tracks the morphology of the ISM. We investigate the stability of M33's disk, finding $Q{\sim}1$ over the majority of the disk. We fit multiple components to the old stellar density distribution and find that, when considering recent stellar kinematics, M33's bulk structure favors the inclusion of an accreted halo component, modeled as a broken power-law. The best-fit halo model has an outer power-law index of $-$3 and accurately describes observational evidence of M33's stellar halo from both resolved stellar spectroscopy in the disk and its stellar populations at large radius. Integrating this profile yields a total halo stellar mass of ${\sim}5{\times}10^8\ M_{\odot}$, giving a total stellar halo mass fraction of 16%, most of which resides in the innermost 2.5 kpc., Comment: 31 pages, 17 figures, 5 tables, Accepted for publication in ApJ

Published

2023

5. RomAndromeda: The Roman Survey of the Andromeda Halo

Author

Dey, Arjun, Najita, Joan, Filion, Carrie, Han, Jiwon Jesse, Pearson, Sarah, Wyse, Rosemary, Thob, Adrien C. R., Anguiano, Borja, Apfel, Miranda, Arnaboldi, Magda, Bell, Eric F., Silva, Leandro Beraldo e, Besla, Gurtina, Bhattacharya, Aparajito, Bhattacharya, Souradeep, Chandra, Vedant, Choi, Yumi, Collins, Michelle L. M., Cunningham, Emily C., Dalcanton, Julianne J., Escala, Ivanna, Foote, Hayden R., Ferguson, Annette M. N., Gibson, Benjamin J., Gnedin, Oleg Y., Guhathakurta, Puragra, Hawkins, Keith, Horta, Danny, Ibata, Rodrigo, Kallivayalil, Nitya, Koch, Eric W., Koposov, Sergey, Lewis, Geraint F., Macri, Lucas, McKinnon, Kevin A., Nidever, David L., Olsen, Knut A. G., Patel, Ekta, Petersen, Michael S., Petric, Andreea, Price-Whelan, Adrian M., Rich, R. Michael, Riley, Alexander H., Saha, Abhijit, Sanderson, Robyn E., Sharma, Sanjib, Sohn, Sangmo Tony, Soraisam, Monika D., Steinmetz, Matthias, Valluri, Monica, Vivas, A. Katherina, Williams, Benjamin F., Wojno, J. Leigh, Dey, Arjun, Najita, Joan, Filion, Carrie, Han, Jiwon Jesse, Pearson, Sarah, Wyse, Rosemary, Thob, Adrien C. R., Anguiano, Borja, Apfel, Miranda, Arnaboldi, Magda, Bell, Eric F., Silva, Leandro Beraldo e, Besla, Gurtina, Bhattacharya, Aparajito, Bhattacharya, Souradeep, Chandra, Vedant, Choi, Yumi, Collins, Michelle L. M., Cunningham, Emily C., Dalcanton, Julianne J., Escala, Ivanna, Foote, Hayden R., Ferguson, Annette M. N., Gibson, Benjamin J., Gnedin, Oleg Y., Guhathakurta, Puragra, Hawkins, Keith, Horta, Danny, Ibata, Rodrigo, Kallivayalil, Nitya, Koch, Eric W., Koposov, Sergey, Lewis, Geraint F., Macri, Lucas, McKinnon, Kevin A., Nidever, David L., Olsen, Knut A. G., Patel, Ekta, Petersen, Michael S., Petric, Andreea, Price-Whelan, Adrian M., Rich, R. Michael, Riley, Alexander H., Saha, Abhijit, Sanderson, Robyn E., Sharma, Sanjib, Sohn, Sangmo Tony, Soraisam, Monika D., Steinmetz, Matthias, Valluri, Monica, Vivas, A. Katherina, Williams, Benjamin F., and Wojno, J. Leigh

Abstract

As our nearest large neighbor, the Andromeda Galaxy provides a unique laboratory for investigating galaxy formation and the distribution and substructure properties of dark matter in a Milky Way-like galaxy. Here, we propose an initial 2-epoch ($\Delta t\approx 5$yr), 2-band Roman survey of the entire halo of Andromeda, covering 500 square degrees, which will detect nearly every red giant star in the halo (10$\sigma$ detection in F146, F062 of 26.5, 26.1AB mag respectively) and yield proper motions to $\sim$25 microarcsec/year (i.e., $\sim$90 km/s) for all stars brighter than F146 $\approx 23.6$ AB mag (i.e., reaching the red clump stars in the Andromeda halo). This survey will yield (through averaging) high-fidelity proper motions for all satellites and compact substructures in the Andromeda halo and will enable statistical searches for clusters in chemo-dynamical space. Adding a third epoch during the extended mission will improve these proper motions by $\sim t^{-1.5}$, to $\approx 11$ km/s, but this requires obtaining the first epoch in Year 1 of Roman operations. In combination with ongoing and imminent spectroscopic campaigns with ground-based telescopes, this Roman survey has the potential to yield full 3-d space motions of $>$100,000 stars in the Andromeda halo, including (by combining individual measurements) robust space motions of its entire globular cluster and most of its dwarf galaxy satellite populations. It will also identify high-velocity stars in Andromeda, providing unique information on the processes that create this population. These data offer a unique opportunity to study the immigration history, halo formation, and underlying dark matter scaffolding of a galaxy other than our own., Comment: Submitted in response to the call for Roman Space Telescope Core Community Survey white papers

Published

2023

6. The impact of HII regions on Giant Molecular Cloud properties in nearby galaxies sampled by PHANGS ALMA and MUSE

Author

Zakardjian, Antoine, Pety, Jérôme, Herrera, Cinthya N., Hughes, Annie, Oakes, Elias, Kreckel, Kathryn, Faesi, Chris, Glover, Simon C. O., Groves, Brent, Klessen, Ralf S., Meidt, Sharon, Barnes, Ashley, Belfiore, Francesco, Bešlić, Ivana, Bigiel, Frank, Blanc, Guillermo A., Chevance, Mélanie, Dale, Daniel A., Brok, Jakob den, Eibensteiner, Cosima, Emsellem, Eric, García-Rodríguez, Axel, Grasha, Kathryn, Koch, Eric W., Leroy, Adam K., Liu, Daizhong, Elroy, Rebecca Mc, Neumann, Lukas, Pan, Hsi-An, Querejeta, Miguel, Razza, Alessandro, Rosolowsky, Erik, Saito, Toshiki, Santoro, Francesco, Schinnerer, Eva, Sun, Jiyai, Usero, Antonio, Watkins, Elizabeth J., Williams, Thomas, Zakardjian, Antoine, Pety, Jérôme, Herrera, Cinthya N., Hughes, Annie, Oakes, Elias, Kreckel, Kathryn, Faesi, Chris, Glover, Simon C. O., Groves, Brent, Klessen, Ralf S., Meidt, Sharon, Barnes, Ashley, Belfiore, Francesco, Bešlić, Ivana, Bigiel, Frank, Blanc, Guillermo A., Chevance, Mélanie, Dale, Daniel A., Brok, Jakob den, Eibensteiner, Cosima, Emsellem, Eric, García-Rodríguez, Axel, Grasha, Kathryn, Koch, Eric W., Leroy, Adam K., Liu, Daizhong, Elroy, Rebecca Mc, Neumann, Lukas, Pan, Hsi-An, Querejeta, Miguel, Razza, Alessandro, Rosolowsky, Erik, Saito, Toshiki, Santoro, Francesco, Schinnerer, Eva, Sun, Jiyai, Usero, Antonio, Watkins, Elizabeth J., and Williams, Thomas

Abstract

We identify giant molecular clouds (GMCs) associated with HII regions for a sample of 19 nearby galaxies using catalogs of GMCs and H regions released by the PHANGS-ALMA and PHANGS-MUSE surveys, using the overlap of the CO and H{\alpha} emission as the key criterion for physical association. We compare the distributions of GMC and HII region properties for paired and non-paired objects. We investigate correlations between GMC and HII region properties among galaxies and across different galactic environments to determine whether GMCs that are associated with HII regions have significantly distinct physical properties to the parent GMC population. We identify trends between the H{\alpha} luminosity of an HII region and the CO peak brightness and the molecular mass of GMCs that we tentatively attribute to a direct physical connection between the matched objects, and which arise independently of underlying environmental variations of GMC and HII region properties within galaxies. The study of the full sample nevertheless hides a large variability galaxy by galaxy. Our results suggests that at the ~100 pc scales accessed by the PHANGS-ALMA and PHANGS-MUSE data, pre-supernova feedback mechanisms in HII regions have a subtle but measurable impact on the properties of the surrounding molecular gas, as inferred from CO observations.

Published

2023

7. Clusters, Clouds, and Correlations: Relating Young Clusters to Giant Molecular Clouds in M33 and M31

Author

Peltonen, Joshua, Rosolowsky, Erik, Johnson, L. Clifton, Seth, Anil C., Dalcanton, Julianne, Bell, Eric F., Braine, Jonathan, Koch, Eric W., Lazzarini, Margaret, Leroy, Adam K., Skillman, Evan D., Smercina, Adam, Wainer, Tobin, Williams, Benjamin F., Peltonen, Joshua, Rosolowsky, Erik, Johnson, L. Clifton, Seth, Anil C., Dalcanton, Julianne, Bell, Eric F., Braine, Jonathan, Koch, Eric W., Lazzarini, Margaret, Leroy, Adam K., Skillman, Evan D., Smercina, Adam, Wainer, Tobin, and Williams, Benjamin F.

Abstract

We use young clusters and giant molecular clouds (GMCs) in the galaxies M33 and M31 to constrain temporal and spatial scales in the star formation process. In M33, we compare the PHATTER catalogue of 1214 clusters with ages measured via colour-magnitude diagram (CMD) fitting to 444 GMCs identified from a new 35 pc resolution ALMA $^{12}$CO(2-1) survey. In M31, we compare the PHAT catalogue of 1249 clusters to 251 GMCs measured from a CARMA $^{12}$CO(1-0) survey with 20 pc resolution. Through two-point correlation analysis, we find that young clusters have a high probability of being near other young clusters, but correlation between GMCs is suppressed by the cloud identification algorithm. By comparing the positions, we find that younger clusters are closer to GMCs than older clusters. Through cross-correlation analysis of the M33 cluster data, we find that clusters are statistically associated when they are $\leq$10 Myr old. Utilizing the high precision ages of the clusters, we find that clusters older than $\approx 18$ Myr are uncorrelated with the molecular ISM. Using the spatial coincidence of the youngest clusters and GMCs in M33, we estimate that clusters spend $\approx$4-6 Myr inside their parent GMC. Through similar analysis, we find that the GMCs in M33 have a total lifetime of $\approx 11$-15 Myr. We also develop a drift model and show that the above correlations can be explained if the clusters in M33 have a 5-10 km s$^{-1}$ velocity dispersion relative to the molecular ISM., Comment: 14 pages, 13 figures, 1 tables, accepted for publication at MNRAS

Published

2023

8. Kinematic analysis of the super-extended HI disk of the nearby spiral galaxy M83

Author

Eibensteiner, Cosima, Bigiel, Frank, Leroy, Adam K., Koch, Eric W., Rosolowsky, Erik, Schinnerer, Eva, Sardone, Amy, Meidt, Sharon, de Blok, W. J. G, Thilker, David, Pisano, D. J., Ott, Jürgen, Barnes, Ashley, Querejeta, Miguel, Emsellem, Eric, Puschnig, Johannes, Utomo, Dyas, Bešlic, Ivana, Brok, Jakob den, Faridani, Shahram, Glover, Simon C. O., Grasha, Kathryn, Hassani, Hamid, Henshaw, Jonathan D., Jiménez-Donaire, Maria J., Kerp, Jürgen, Dale, Daniel A., Kruijssen, J. M. Diederik, Laudage, Sebastian, Sanchez-Blazquez, Patricia, Smith, Rowan, Stuber, Sophia, Pessa, Ismael, Watkins, Elizabeth J., Williams, Thomas G., Winkel, Benjamin, Eibensteiner, Cosima, Bigiel, Frank, Leroy, Adam K., Koch, Eric W., Rosolowsky, Erik, Schinnerer, Eva, Sardone, Amy, Meidt, Sharon, de Blok, W. J. G, Thilker, David, Pisano, D. J., Ott, Jürgen, Barnes, Ashley, Querejeta, Miguel, Emsellem, Eric, Puschnig, Johannes, Utomo, Dyas, Bešlic, Ivana, Brok, Jakob den, Faridani, Shahram, Glover, Simon C. O., Grasha, Kathryn, Hassani, Hamid, Henshaw, Jonathan D., Jiménez-Donaire, Maria J., Kerp, Jürgen, Dale, Daniel A., Kruijssen, J. M. Diederik, Laudage, Sebastian, Sanchez-Blazquez, Patricia, Smith, Rowan, Stuber, Sophia, Pessa, Ismael, Watkins, Elizabeth J., Williams, Thomas G., and Winkel, Benjamin

Abstract

We present new HI observations of the nearby massive spiral galaxy M83, taken with the VLA at $21^{\prime\prime}$ angular resolution ($\approx500$ pc) of an extended ($\sim$1.5 deg$^2$) 10-point mosaic combined with GBT single dish data. We study the super-extended HI disk of M83 (${\sim}$50 kpc in radius), in particular disc kinematics, rotation and the turbulent nature of the atomic interstellar medium. We define distinct regions in the outer disk ($r_{\rm gal}>$central optical disk), including ring, southern area, and southern and northern arm. We examine HI gas surface density, velocity dispersion and non-circular motions in the outskirts, which we compare to the inner optical disk. We find an increase of velocity dispersion ($\sigma_v$) towards the pronounced HI ring, indicative of more turbulent HI gas. Additionally, we report over a large galactocentric radius range (until $r_{\rm gal}{\sim}$50 kpc) that $\sigma_v$ is slightly larger than thermal (i.e. $>8$km s$^{-1}$ ). We find that a higher star formation rate (as traced by FUV emission) is not always necessarily associated with a higher HI velocity dispersion, suggesting that radial transport could be a dominant driver for the enhanced velocity dispersion. We further find a possible branch that connects the extended HI disk to the dwarf irregular galaxy UGCA365, that deviates from the general direction of the northern arm. Lastly, we compare mass flow rate profiles (based on 2D and 3D tilted ring models) and find evidence for outflowing gas at r$_{\rm gal}$ $\sim$2 kpc, inflowing gas at r$_{\rm gal}$ $\sim$5.5 kpc and outflowing gas at r$_{\rm gal}$ $\sim$14 kpc. We caution that mass flow rates are highly sensitive to the assumed kinematic disk parameters, in particular, to the inclination., Comment: accepted for publication in A&A; 16 pages, 12 figures (+8 pages appendix)

Published

2023

9. Star Formation Laws and Efficiencies across 80 Nearby Galaxies

Author

Sun, Jiayi, Leroy, Adam K., Ostriker, Eve C., Meidt, Sharon, Rosolowsky, Erik, Schinnerer, Eva, Wilson, Christine D., Utomo, Dyas, Belfiore, Francesco, Blanc, Guillermo A., Emsellem, Eric, Faesi, Christopher, Groves, Brent, Hughes, Annie, Koch, Eric W., Kreckel, Kathryn, Liu, Daizhong, Pan, Hsi-An, Pety, Jerome, Querejeta, Miguel, Razza, Alessandro, Saito, Toshiki, Sardone, Amy, Usero, Antonio, Williams, Thomas G., Bigiel, Frank, Bolatto, Alberto D., Chevance, Melanie, Dale, Daniel A., Gensior, Jindra, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Jimenez-Donaire, Maria J., Klessen, Ralf S., Kruijssen, J. M. Diederik, Murphy, Eric J., Neumann, Lukas, Teng, Yu-Hsuan, Thilker, David A., Sun, Jiayi, Leroy, Adam K., Ostriker, Eve C., Meidt, Sharon, Rosolowsky, Erik, Schinnerer, Eva, Wilson, Christine D., Utomo, Dyas, Belfiore, Francesco, Blanc, Guillermo A., Emsellem, Eric, Faesi, Christopher, Groves, Brent, Hughes, Annie, Koch, Eric W., Kreckel, Kathryn, Liu, Daizhong, Pan, Hsi-An, Pety, Jerome, Querejeta, Miguel, Razza, Alessandro, Saito, Toshiki, Sardone, Amy, Usero, Antonio, Williams, Thomas G., Bigiel, Frank, Bolatto, Alberto D., Chevance, Melanie, Dale, Daniel A., Gensior, Jindra, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Jimenez-Donaire, Maria J., Klessen, Ralf S., Kruijssen, J. M. Diederik, Murphy, Eric J., Neumann, Lukas, Teng, Yu-Hsuan, and Thilker, David A.

Abstract

We measure empirical relationships between the local star formation rate (SFR) and properties of the star-forming molecular gas on 1.5 kpc scales across 80 nearby galaxies. These relationships, commonly referred to as "star formation laws," aim at predicting the local SFR surface density from various combinations of molecular gas surface density, galactic orbital time, molecular cloud free-fall time, and the interstellar medium dynamical equilibrium pressure. Leveraging a multiwavelength database built for the PHANGS survey, we measure these quantities consistently across all galaxies and quantify systematic uncertainties stemming from choices of SFR calibrations and the CO-to-H$_2$ conversion factors. The star formation laws we examine show 0.3-0.4 dex of intrinsic scatter, among which the molecular Kennicutt-Schmidt relation shows a $\sim$10% larger scatter than the other three. The slope of this relation ranges $\beta\approx0.9{-}1.2$, implying that the molecular gas depletion time remains roughly constant across the environments probed in our sample. The other relations have shallower slopes ($\beta\approx0.6{-}1.0$), suggesting that the star formation efficiency (SFE) per orbital time, the SFE per free-fall time, and the pressure-to-SFR surface density ratio (i.e., the feedback yield) may vary systematically with local molecular gas and SFR surface densities. Last but not least, the shapes of the star formation laws depend sensitively on methodological choices. Different choices of SFR calibrations can introduce systematic uncertainties of at least 10-15% in the star formation law slopes and 0.15-0.25 dex in their normalization, while the CO-to-H$_2$ conversion factors can additionally produce uncertainties of 20-25% for the slope and 0.10-0.20 dex for the normalization., Comment: 10 pages main text + 2 appendices. ApJL in press. Data products available at https://www.canfar.net/storage/list/phangs/RELEASES/Sun_etal_2023 . Slides summarizing key results can be found at https://www.dropbox.com/s/5gsegexeo9n0t05/Sun_et_PHANGS_2023.pptx?dl=0

Published

2023

10. Wide-field CO isotopologue emission and the CO-to-H$_2$ factor across the nearby spiral galaxy M101

Author

Brok, Jakob S. den, Bigiel, Frank, Chastenet, Jérémy, Sandstrom, Karin, Leroy, Adam, Usero, Antonio, Schinnerer, Eva, Rosolowsky, Erik W., Koch, Eric W., Chiang, I-Da, Barnes, Ashley T., Puschnig, Johannes, Saito, Toshiki, Bešlić, Ivana, Chevance, Melanie, Dale, Daniel A., Eibensteiner, Cosima, Glover, Simon, Jiménez-Donaire, María J., Teng, Yu-Hsuan, Williams, Thomas G., Brok, Jakob S. den, Bigiel, Frank, Chastenet, Jérémy, Sandstrom, Karin, Leroy, Adam, Usero, Antonio, Schinnerer, Eva, Rosolowsky, Erik W., Koch, Eric W., Chiang, I-Da, Barnes, Ashley T., Puschnig, Johannes, Saito, Toshiki, Bešlić, Ivana, Chevance, Melanie, Dale, Daniel A., Eibensteiner, Cosima, Glover, Simon, Jiménez-Donaire, María J., Teng, Yu-Hsuan, and Williams, Thomas G.

Abstract

Carbon monoxide (CO) emission is the most widely used tracer of the bulk molecular gas in the interstellar medium (ISM) in extragalactic studies. The CO-to-H$_2$ conversion factor, $\alpha_{\rm CO}$, links the observed CO emission to the total molecular gas mass. However, no single prescription perfectly describes the variation of $\alpha_{\rm CO}$ across all environments across galaxies as a function of metallicity, molecular gas opacity, line excitation, and other factors. Using resolved spectral line observations of CO and its isotopologues, we can constrain the molecular gas conditions and link them to a variation in the conversion factor. We present new IRAM 30-m 1mm and 3mm line observations of $^{12}$CO, $^{13}$CO, and C$^{18}$O} across the nearby galaxy M101. Based on the CO isotopologue line ratios, we find that selective nucleosynthesis and opacity changes are the main drivers of the variation in the line emission across the galaxy. Furthermore, we estimated $\alpha_{\rm CO(1-0)}$ using different approaches, including (i) the dust mass surface density derived from far-IR emission as an independent tracer of the total gas surface density and (ii) LTE-based measurements using the optically thin $^{13}$CO(1-0) intensity. We find an average value of $\alpha_{\rm CO}=4.4{\pm}0.9\rm\,M_\odot\,pc^{-2}(K\,km\,s^{-1})^{-1}$ across the galaxy, with a decrease by a factor of 10 toward the 2 kpc central region. In contrast, we find LTE-based values are lower by a factor of 2-3 across the disk relative to the dust-based result. Accounting for $\alpha_{\rm CO}$ variations, we found significantly reduced molecular gas depletion time by a factor 10 in the galaxy's center. In conclusion, our result suggests implications for commonly derived scaling relations, such as an underestimation of the slope of the Kennicutt Schmidt law, if $\alpha_{\rm CO}$ variations are not accounted for., Comment: Accepted for publication in A&A, 25 pages, 15 figures

Published

2023

11. Kpc-scale properties of dust temperature in terms of dust mass and star formation activity

Author

Chiang, I-Da, Hirashita, Hiroyuki, Chastenet, Jeremy, Koch, Eric W., Leroy, Adam K., Rosolowsky, Erik, Sandstrom, Karin M., Sardone, Amy, Sun, Jiayi, Williams, Thomas G., Chiang, I-Da, Hirashita, Hiroyuki, Chastenet, Jeremy, Koch, Eric W., Leroy, Adam K., Rosolowsky, Erik, Sandstrom, Karin M., Sardone, Amy, Sun, Jiayi, and Williams, Thomas G.

Abstract

We investigate how the dust temperature is affected by local environmental quantities, especially dust surface density ($\Sigma_\mathrm{dust}$), dust-to-gas ratio (D/G) and interstellar radiation field. We compile multi-wavelength observations in 46 nearby galaxies, uniformly processed with a common physical resolution of $2~$kpc. A physical dust model is used to fit the infrared dust emission spectral energy distribution (SED) observed with WISE and Herschel. The star formation rate (SFR) is traced with GALEX ultraviolet data corrected by WISE infrared. We find that the dust temperature correlates well with the SFR surface density ($\Sigma_{\rm SFR}$), which traces the radiation from young stars. The dust temperature decreases with increasing D/G at fixed $\Sigma_{\rm SFR}$ as expected from stronger dust shielding at high D/G, when $\Sigma_\mathrm{SFR}$ is higher than $\sim 2\times 10^{-3}~\rm M_\odot~yr^{-1}~kpc^{-2}$. These measurements are in good agreement with the dust temperature predicted by our proposed analytical model. Below this range of $\Sigma_\mathrm{SFR}$, the observed dust temperature is higher than the model prediction and is only weakly dependent on D/G, which is possibly due to the dust heating from old stellar population or the variation of SFR within the past $10^{10}~$yr. Overall, the dust temperature as a function of $\Sigma_\mathrm{SFR}$ and $\Sigma_\mathrm{dust}$ predicted by our analytical model is consistent with observations. We also notice that at fixed gas surface density, $\Sigma_{\rm SFR}$ tends to increase with D/G, i.e. we can empirically modify the Kennicutt-Schmidt law with a dependence on D/G to better match observations., Comment: 16 pages, 8 figures, accepted for publication in MNRAS

Published

2023

12. JWST Reveals Star Formation Across a Spiral Arm in M33

Author

Peltonen, Joshua, Rosolowsky, Erik, Williams, Thomas G., Koch, Eric W., Dolphin, Andrew, Chastenet, Jeremy, Dalcanton, Julianne J., Ginsburg, Adam, Johnson, L. Clifton, Leroy, Adam K., Richardson, Theo, Sandstrom, Karin M., Sarbadhicary, Sumit K., Smercina, Adam, Wainer, Tobin, Williams, Benjamin F., Peltonen, Joshua, Rosolowsky, Erik, Williams, Thomas G., Koch, Eric W., Dolphin, Andrew, Chastenet, Jeremy, Dalcanton, Julianne J., Ginsburg, Adam, Johnson, L. Clifton, Leroy, Adam K., Richardson, Theo, Sandstrom, Karin M., Sarbadhicary, Sumit K., Smercina, Adam, Wainer, Tobin, and Williams, Benjamin F.

Abstract

Young stellar objects (YSOs) are the gold standard for tracing star formation in galaxies but have been unobservable beyond the Milky Way and Magellanic Clouds. But that all changed when the James Webb Space Telescope was launched, which we use to identify YSOs in the Local Group galaxy M33, marking the first time that individual YSOs have been identified at these large distances. We present MIRI imaging mosaics at 5.6 and 21 microns that cover a significant portion of one of M33's spiral arms that has existing panchromatic imaging from the Hubble Space Telescope and deep ALMA CO measurements. Using these MIRI and Hubble Space Telescope images, we identify point sources using the new DOLPHOT MIRI module. We identify 793 candidate YSOs from cuts based on colour, proximity to giant molecular clouds (GMCs), and visual inspection. Similar to Milky Way GMCs, we find that higher mass GMCs contain more YSOs and YSO emission, which further shows YSOs identify star formation better than most tracers that cannot capture this relationship at cloud scales. We find evidence of enhanced star formation efficiency in the southern spiral arm by comparing the YSOs to the molecular gas mass., Comment: 12 pages, 10 figures, 1 tables, accepted for publication at MNRAS

Published

2023

13. The PHANGS-AstroSat Atlas of Nearby Star Forming Galaxies

Author

Hassani, Hamid, Rosolowsky, Erik, Koch, Eric W., Postma, Joseph, Nofech, Joseph, Corbould, Harrisen, Thilker, David, Leroy, Adam K., Schinnerer, Eva, Belfiore, Francesco, Bigiel, Frank, Boquien, Mederic, Chevance, Melanie, Dale, Daniel A., Egorov, Oleg V., Emsellem, Eric, Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Henny, Kiana, Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Lee, Janice C., Lopez, Laura A., Neumann, Justus, Pan, Hsi-An, Sandstrom, Karin M., Sarbadhicary, Sumit K., Sun, Jiayi, Williams, Thomas G., Hassani, Hamid, Rosolowsky, Erik, Koch, Eric W., Postma, Joseph, Nofech, Joseph, Corbould, Harrisen, Thilker, David, Leroy, Adam K., Schinnerer, Eva, Belfiore, Francesco, Bigiel, Frank, Boquien, Mederic, Chevance, Melanie, Dale, Daniel A., Egorov, Oleg V., Emsellem, Eric, Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Henny, Kiana, Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Lee, Janice C., Lopez, Laura A., Neumann, Justus, Pan, Hsi-An, Sandstrom, Karin M., Sarbadhicary, Sumit K., Sun, Jiayi, and Williams, Thomas G.

Abstract

We present the Physics at High Angular resolution in Nearby GalaxieS (PHANGS)-AstroSat atlas, which contains ultraviolet imaging of 31 nearby star-forming galaxies captured by the Ultraviolet Imaging Telescope (UVIT) on the AstroSat satellite. The atlas provides a homogeneous data set of far- and near-ultraviolet maps of galaxies within a distance of 22 Mpc and a median angular resolution of 1.4 arcseconds (corresponding to a physical scale between 25 and 160 pc). After subtracting a uniform ultraviolet background and accounting for Milky Way extinction, we compare our estimated flux densities to GALEX observations, finding good agreement. We find candidate extended UV disks around the galaxies NGC 6744 and IC 5332. We present the first statistical measurements of the clumping of the UV emission and compare it to the clumping of molecular gas traced with ALMA. We find that bars and spiral arms exhibit the highest degree of clumping, and the molecular gas is even more clumped than the FUV emission in galaxies. We investigate the variation of the ratio of observed FUV to H$\alpha$ in different galactic environments and kpc-sized apertures. We report that $\sim 65 \%$ varation of the $\log_{10}$(FUV/H$\alpha$) can be described through a combination of dust attenuation with star formation history parameters. The PHANGS-AstroSat atlas enhances the multi-wavelength coverage of our sample, offering a detailed perspective on star formation. When integrated with PHANGS data sets from ALMA, VLT-MUSE, HST and JWST, it develops our comprehensive understanding of attenuation curves and dust attenuation in star-forming galaxies., Comment: 35 pages, 16 figures. The survey webpage is available at https://sites.google.com/view/phangs/home/data/astrosat and the data archive can be accessed at https://www.canfar.net/storage/vault/list/phangs/RELEASES/PHANGS-AstroSat/v1p0

Published

2023

14. A Two-Component Probability Distribution Function Describes the mid-IR Emission from the Disks of Star-Forming Galaxies

Author

Pathak, Debosmita, Leroy, Adam K., Thompson, Todd A., Lopez, Laura A., Belfiore, Francesco, Boquien, Mederic, Dale, Daniel A., Glover, Simon C. O., Klessen, Ralf S., Koch, Eric W., Rosolowsky, Erik, Sandstrom, Karin M., Schinnerer, Eva, Smith, Rowan, Sun, Jiayi, Sutter, Jessica, Williams, Thomas G., Bigiel, Frank, Cao, Yixian, Chastenet, Jeremy, Chevance, Melanie, Chown, Ryan, Emsellem, Eric, Faesi, Christopher M., Larson, Kirsten L., Lee, Janice C., Meidt, Sharon, Ostriker, Eve C., Ramambason, Lise, Sarbadhicary, Sumit K., Thilker, David A., Pathak, Debosmita, Leroy, Adam K., Thompson, Todd A., Lopez, Laura A., Belfiore, Francesco, Boquien, Mederic, Dale, Daniel A., Glover, Simon C. O., Klessen, Ralf S., Koch, Eric W., Rosolowsky, Erik, Sandstrom, Karin M., Schinnerer, Eva, Smith, Rowan, Sun, Jiayi, Sutter, Jessica, Williams, Thomas G., Bigiel, Frank, Cao, Yixian, Chastenet, Jeremy, Chevance, Melanie, Chown, Ryan, Emsellem, Eric, Faesi, Christopher M., Larson, Kirsten L., Lee, Janice C., Meidt, Sharon, Ostriker, Eve C., Ramambason, Lise, Sarbadhicary, Sumit K., and Thilker, David A.

Abstract

High-resolution JWST-MIRI images of nearby spiral galaxies reveal emission with complex substructures that trace dust heated both by massive young stars and the diffuse interstellar radiation field. We present high angular (0."85) and physical resolution (20-80 pc) measurements of the probability distribution function (PDF) of mid-infrared (mid-IR) emission (7.7-21 $\mu$m) from 19 nearby star-forming galaxies from the PHANGS-JWST Cycle-1 Treasury. The PDFs of mid-IR emission from the disks of all 19 galaxies consistently show two distinct components: an approximately log-normal distribution at lower intensities and a high-intensity power-law component. These two components only emerge once individual star-forming regions are resolved. Comparing with locations of HII regions identified from VLT/MUSE H$\alpha$-mapping, we infer that the power-law component arises from star-forming regions and thus primarily traces dust heated by young stars. In the continuum-dominated 21 $\mu$m band, the power-law is more prominent and contains roughly half of the total flux. At 7.7-11.3 $\mu$m, the power-law is suppressed by the destruction of small grains (including PAHs) close to HII regions while the log-normal component tracing the dust column in diffuse regions appears more prominent. The width and shape of the log-normal diffuse emission PDFs in galactic disks remain consistent across our sample, implying a log-normal gas column density $N$(H)$\approx10^{21}$cm$^{-2}$ shaped by supersonic turbulence with typical (isothermal) turbulent Mach numbers $\approx5-15$. Finally, we describe how the PDFs of galactic disks are assembled from dusty HII regions and diffuse gas, and discuss how the measured PDF parameters correlate with global properties such as star-formation rate and gas surface density., Comment: 30 pages without appendix, 17 figures, (with appendix images of full sample: 56 pages, 39 figures), accepted in AJ

Published

2023

15. Resolved Measurements of the CO-to-H$_2$ Conversion Factor in 37 Nearby Galaxies

Author

Chiang, I-Da, Sandstrom, Karin M., Chastenet, Jeremy, Bolatto, Alberto D., Koch, Eric W., Leroy, Adam K., Sun, Jiayi, Teng, Yu-Hsuan, Williams, Thomas G., Chiang, I-Da, Sandstrom, Karin M., Chastenet, Jeremy, Bolatto, Alberto D., Koch, Eric W., Leroy, Adam K., Sun, Jiayi, Teng, Yu-Hsuan, and Williams, Thomas G.

Abstract

We measure the CO-to-H$_2$ conversion factor ($\alpha_\mathrm{CO}$) in 37 galaxies at 2~kpc resolution, using dust surface density inferred from far-infrared emission as a tracer of the gas surface density and assuming a constant dust-to-metals ratio. In total, we have $\sim790$ and $\sim610$ independent measurements of $\alpha_\mathrm{CO}$ for CO (2-1) and (1-0), respectively. The mean values for $\alpha_\mathrm{CO~(2-1)}$ and $\alpha_\mathrm{CO~(1-0)}$ are $9.3^{+4.6}_{-5.4}$ and $4.2^{+1.9}_{-2.0}~M_\odot~pc^{-2}~(K~km~s^{-1})^{-1}$, respectively. The CO-intensity-weighted mean for $\alpha_\mathrm{CO~(2-1)}$ is 5.69, and 3.33 for $\alpha_\mathrm{CO~(1-0)}$. We examine how $\alpha_\mathrm{CO}$ scales with several physical quantities, e.g.\ star-formation rate (SFR), stellar mass, and dust-mass-weighted average interstellar radiation field strength ($\overline{U}$). Among them, $\overline{U}$, $\Sigma_{\rm SFR}$, and integrated CO intensity ($W_\mathrm{CO}$) have the strongest anti-correlation with spatially resolved $\alpha_\mathrm{CO}$. We provide linear regression results to \aco for all quantities tested. At galaxy integrated scales, we observe significant correlations between $\alpha_\mathrm{CO}$ and $W_\mathrm{CO}$, metallicity, $\overline{U}$, and $\Sigma_{\rm SFR}$. We also find that the normalized $\alpha_\mathrm{CO}$ decreases with stellar mass surface density ($\Sigma_\star$) in the high surface density regions ($\Sigma_\star\geq100~{\rm M_\odot~pc^{-2}}$), following the power-law relations $\alpha_\mathrm{CO~(2-1)}\propto\Sigma_\star^{-0.5}$ and $\alpha_\mathrm{CO~(1-0)}\propto\Sigma_\star^{-0.2}$. The power-law index is insensitive to the assumed dust-to-metals ratio. (abridged), Comment: 27 pages, 13 figures, 4 tables, submitted to ApJ

Published

2023

16. Where do stars explode in the ISM? -- The distribution of dense gas around massive stars and supernova remnants in M33

Author

Sarbadhicary, Sumit K., Wagner, Jordan, Koch, Eric W., Chen, Ness Mayker, Leroy, Adam K., Lahén, Natalia, Rosolowsky, Erik, Neugent, Kathryn F., Kim, Chang-Goo, Chomiuk, Laura, Dalcanton, Julianne J., Lopez, Laura A., Pingel, Nickolas M., Indebetouw, Remy, Williams, Thomas G., Tarantino, Elizabeth, Meyer, Jennifer Donovan, Skillman, Evan D., Smercina, Adam, Kepley, Amanda A., Murphy, Eric J., Strader, Jay, Wong, Tony, Stanimirović, Snežana, Villanueva, Vicente, Walter, Fabian, Ott, Juergen, Darling, Jeremy, Roman-Duval, Julia, Murray, Claire E., Sarbadhicary, Sumit K., Wagner, Jordan, Koch, Eric W., Chen, Ness Mayker, Leroy, Adam K., Lahén, Natalia, Rosolowsky, Erik, Neugent, Kathryn F., Kim, Chang-Goo, Chomiuk, Laura, Dalcanton, Julianne J., Lopez, Laura A., Pingel, Nickolas M., Indebetouw, Remy, Williams, Thomas G., Tarantino, Elizabeth, Meyer, Jennifer Donovan, Skillman, Evan D., Smercina, Adam, Kepley, Amanda A., Murphy, Eric J., Strader, Jay, Wong, Tony, Stanimirović, Snežana, Villanueva, Vicente, Walter, Fabian, Ott, Juergen, Darling, Jeremy, Roman-Duval, Julia, and Murray, Claire E.

Abstract

Star formation in galaxies is regulated by turbulence, outflows, gas heating and cloud dispersal -- processes which depend sensitively on the properties of the interstellar medium (ISM) into which supernovae (SNe) explode. Unfortunately, direct measurements of ISM environments around SNe remain scarce, as SNe are rare and often distant. Here we demonstrate a new approach: mapping the ISM around the massive stars that are soon to explode. This provides a much larger census of explosion sites than possible with only SNe, and allows comparison with sensitive, high-resolution maps of the atomic and molecular gas from the Jansky VLA and ALMA. In the well-resolved Local Group spiral M33, we specifically observe the environments of red supergiants (RSGs, progenitors of Type II SNe), Wolf-Rayet stars (WRs, tracing stars $>$30 M$_{\odot}$, and possibly future stripped-envelope SNe), and supernova remnants (SNRs, locations where SNe have exploded). We find that massive stars evolve not only in dense, molecular-dominated gas (with younger stars in denser gas), but also a substantial fraction ($\sim$45\% of WRs; higher for RSGs) evolve in lower-density, atomic-gas-dominated, inter-cloud media. We show that these measurements are consistent with expectations from different stellar-age tracer maps, and can be useful for validating SN feedback models in numerical simulations of galaxies. Along with the discovery of a 20-pc diameter molecular gas cavity around a WR, these findings re-emphasize the importance of pre-SN/correlated-SN feedback evacuating the dense gas around massive stars before explosion, and the need for high-resolution (down to pc-scale) surveys of the multi-phase ISM in nearby galaxies., Comment: 34 pages, 14 figures. Submitted to ApJ. Comments welcome! The density distributions will be made publicly available after journal acceptance of manuscript. Please feel free to contact us in the meantime if you would like to use them

Published

2023

17. PHANGS--JWST First Results: ISM structure on the turbulent Jeans scale in four disk galaxies observed by JWST and ALMA

Author

Meidt, Sharon E., Rosolowsky, Erik, Sun, Jiayi, Koch, Eric W., Klessen, Ralf S., Leroy, Adam K., Schinnerer, Eva, Barnes, Ashley. T., Glover, Simon C. O., Lee, Janice C., van der Wel, Arjen, Watkins, Elizabeth J., Williams, Thomas G., Bigiel, Frank, Boquien, Médéric, Blanc, Guillermo A., Cao, Yixian, Chevance, Mélanie, Dale, Daniel A., Egorov, Oleg V., Emsellem, Eric, Grasha, Kathryn, Henshaw, Jonathan D., Kruijssen, J. M. Diederik, Larson, Kirsten L., Liu, Daizhong, Murphy, Eric J., Pety, Jérôme, Querejeta, Miguel, Saito, Toshiki, Sandstrom, Karin M., Smith, Rowan J., Sormani, Mattia C., Thilker, David A., Meidt, Sharon E., Rosolowsky, Erik, Sun, Jiayi, Koch, Eric W., Klessen, Ralf S., Leroy, Adam K., Schinnerer, Eva, Barnes, Ashley. T., Glover, Simon C. O., Lee, Janice C., van der Wel, Arjen, Watkins, Elizabeth J., Williams, Thomas G., Bigiel, Frank, Boquien, Médéric, Blanc, Guillermo A., Cao, Yixian, Chevance, Mélanie, Dale, Daniel A., Egorov, Oleg V., Emsellem, Eric, Grasha, Kathryn, Henshaw, Jonathan D., Kruijssen, J. M. Diederik, Larson, Kirsten L., Liu, Daizhong, Murphy, Eric J., Pety, Jérôme, Querejeta, Miguel, Saito, Toshiki, Sandstrom, Karin M., Smith, Rowan J., Sormani, Mattia C., and Thilker, David A.

Abstract

JWST/MIRI imaging of the nearby galaxies IC 5332, NGC 628, NGC 1365 and NGC 7496 from PHANGS reveals a richness of gas structures that in each case form a quasi-regular network of interconnected filaments, shells and voids. We examine whether this multi-scale network of structure is consistent with the fragmentation of the gas disk through gravitational instability. We use FilFinder to detect the web of filamentary features in each galaxy and determine their characteristic radial and azimuthal spacings. These spacings are then compared to estimates of the most Toomre-unstable length (a few kpc), the turbulent Jeans length (a few hundred pc) and the disk scale height (tens of pc) reconstructed using PHANGS-ALMA observations of the molecular gas as a dynamical tracer. Our analysis of the four galaxies targeted in this work indicates that Jeans-scale structure is pervasive. Future work will be essential for determining how the structure observed in gas disks impacts not only the rate and location of star formation but also how stellar feedback interacts positively or negatively with the surrounding multi-phase gas reservoir., Comment: 15 pages, 4 figures. Accepted as part of a PHANGS-JWST ApJL Focus Issue

Published

2022

18. PHANGS-JWST First Results: Tracing the Diffuse ISM with JWST Imaging of Polycyclic Aromatic Hydrocarbon Emission in Nearby Galaxies

Author

Sandstrom, Karin M., Koch, Eric W., Leroy, Adam K., Rosolowsky, Erik, Emsellem, Eric, Smith, Rowan J., Egorov, Oleg V., Williams, Thomas G., Larson, Kirsten L., Lee, Janice C., Schinnerer, Eva, Thilker, David A., Barnes, Ashley. T., Belfiore, Francesco, Bigiel, F., Blanc, Guillermo A., Bolatto, Alberto D., Boquien, Médéric, Cao, Yixian, Chastenet, Jérémy, Chevance, Mélanie, Chiang, I-Da, Dale, Daniel A., Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henshaw, Jonathan D., Hughes, Annie, Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Lopez, Laura A., Liu, Daizhong, Meidt, Sharon E., Murphy, Eric J., Pan, Hsi-An, Querejeta, Miguel, Saito, Toshiki, Sardone, Amy, Sormani, Mattia C., Sutter, Jessica, Usero, Antonio, Watkins, Elizabeth J., Sandstrom, Karin M., Koch, Eric W., Leroy, Adam K., Rosolowsky, Erik, Emsellem, Eric, Smith, Rowan J., Egorov, Oleg V., Williams, Thomas G., Larson, Kirsten L., Lee, Janice C., Schinnerer, Eva, Thilker, David A., Barnes, Ashley. T., Belfiore, Francesco, Bigiel, F., Blanc, Guillermo A., Bolatto, Alberto D., Boquien, Médéric, Cao, Yixian, Chastenet, Jérémy, Chevance, Mélanie, Chiang, I-Da, Dale, Daniel A., Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henshaw, Jonathan D., Hughes, Annie, Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Lopez, Laura A., Liu, Daizhong, Meidt, Sharon E., Murphy, Eric J., Pan, Hsi-An, Querejeta, Miguel, Saito, Toshiki, Sardone, Amy, Sormani, Mattia C., Sutter, Jessica, Usero, Antonio, and Watkins, Elizabeth J.

Abstract

JWST observations of polycyclic aromatic hydrocarbon (PAH) emission provide some of the deepest and highest resolution views of the cold interstellar medium (ISM) in nearby galaxies. If PAHs are well mixed with the atomic and molecular gas and illuminated by the average diffuse interstellar radiation field, PAH emission may provide an approximately linear, high resolution, high sensitivity tracer of diffuse gas surface density. We present a pilot study that explores using PAH emission in this way based on MIRI observations of IC 5332, NGC 628, NGC 1365, and NGC 7496 from the PHANGS-JWST Treasury. Using scaling relationships calibrated in Leroy et al. (2022), scaled F1130W provides 10--40 pc resolution and 3$\sigma$ sensitivity of $\Sigma_{\rm gas} \sim 2$ M$_\odot$ pc$^{-2}$. We characterize the surface densities of structures seen at $< 7$ M$_\odot$ pc$^{-2}$ in our targets, where we expect the gas to be HI-dominated. We highlight the existence of filaments, inter-arm emission, and holes in the diffuse ISM at these low surface densities. Below $\sim 10$ M$_\odot$ pc$^{-2}$ for NGC 628, NGC 1365, and NGC 7496 the gas distribution shows a ``Swiss cheese''-like topology due to holes and bubbles pervading the relatively smooth distribution of diffuse ISM. Comparing to recent galaxy simulations, we observe similar topology for the low surface density gas, though with notable variations between simulations with different setups and resolution. Such a comparison of high resolution, low surface density gas with simulations is not possible with existing atomic and molecular gas maps, highlighting the unique power of JWST maps of PAH emission., Comment: 18 pages, 6 figures, accepted as part of a PHANGS-JWST Focus Issue to appear in ApJ

Published

2022

19. PHANGS-JWST First Results: Mid-infrared emission traces both gas column density and heating at 100 pc scales

Author

Leroy, Adam K., Sandstrom, Karin, Rosolowsky, Erik, Belfiore, Francesco, Bolatto, Alberto D., Cao, Yixian, Koch, Eric W., Schinnerer, Eva, Barnes, Ashley. T., Bešlić, Ivana, Bigiel, F., Blanc, Guillermo A., Chastenet, Jérémy, Chen, Ness Mayker, Chevance, Mélanie, Chown, Ryan, Congiu, Enrico, Dale, Daniel A., Egorov, Oleg V., Emsellem, Eric, Eibensteiner, Cosima, Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henshaw, Jonathan D., Hughes, Annie, Jiménez-Donaire, María J., Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Larson, Kirsten L., Lee, Janice C., Levy, Rebecca C., Liu, Daizhong, Lopez, Laura A., Meidt, Sharon E., Murphy, Eric J., Neumann, Justus, Pessa, Ismael, Pety, Jérôme, Saito, Toshiki, Sardone, Amy, Sun, Jiayi, Thilker, David A., Usero, Antonio, Watkins, Elizabeth J., Whitcomb, Cory M., Williams, Thomas G., Leroy, Adam K., Sandstrom, Karin, Rosolowsky, Erik, Belfiore, Francesco, Bolatto, Alberto D., Cao, Yixian, Koch, Eric W., Schinnerer, Eva, Barnes, Ashley. T., Bešlić, Ivana, Bigiel, F., Blanc, Guillermo A., Chastenet, Jérémy, Chen, Ness Mayker, Chevance, Mélanie, Chown, Ryan, Congiu, Enrico, Dale, Daniel A., Egorov, Oleg V., Emsellem, Eric, Eibensteiner, Cosima, Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henshaw, Jonathan D., Hughes, Annie, Jiménez-Donaire, María J., Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Larson, Kirsten L., Lee, Janice C., Levy, Rebecca C., Liu, Daizhong, Lopez, Laura A., Meidt, Sharon E., Murphy, Eric J., Neumann, Justus, Pessa, Ismael, Pety, Jérôme, Saito, Toshiki, Sardone, Amy, Sun, Jiayi, Thilker, David A., Usero, Antonio, Watkins, Elizabeth J., Whitcomb, Cory M., and Williams, Thomas G.

Abstract

We compare mid-infrared (mid-IR), extinction-corrected H$\alpha$, and CO (2-1) emission at 70--160 pc resolution in the first four PHANGS-JWST targets. We report correlation strengths, intensity ratios, and power law fits relating emission in JWST's F770W, F1000W, F1130W, and F2100W bands to CO and H$\alpha$. At these scales, CO and H$\alpha$ each correlate strongly with mid-IR emission, and these correlations are each stronger than the one relating CO to H$\alpha$ emission. This reflects that mid-IR emission simultaneously acts as a dust column density tracer, leading to the good match with the molecular gas-tracing CO, and as a heating tracer, leading to the good match with the H$\alpha$. By combining mid-IR, CO, and H$\alpha$ at scales where the overall correlation between cold gas and star formation begins to break down, we are able to separate these two effects. We model the mid-IR above $I_\nu = 0.5$~MJy sr$^{-1}$ at F770W, a cut designed to select regions where the molecular gas dominates the interstellar medium (ISM) mass. This bright emission can be described to first order by a model that combines a CO-tracing component and an H$\alpha$-tracing component. The best-fitting models imply that $\sim 50\%$ of the mid-IR flux arises from molecular gas heated by the diffuse interstellar radiation field, with the remaining $\sim 50\%$ associated with bright, dusty star forming regions. We discuss differences between the F770W, F1000W, F1130W bands and the continuum dominated F2100W band and suggest next steps for using the mid-IR as an ISM tracer., Comment: 49 pages, 17 figures, Section 8 provides a detailed summary, accepted for publication in ApJ Letters, part of a PHANGS-JWST Focus Issue to appear in ApJ

Published

2022

20. The PHANGS-JWST Treasury Survey: Star Formation, Feedback, and Dust Physics at High Angular resolution in Nearby GalaxieS

Author

Lee, Janice C., Sandstrom, Karin M., Leroy, Adam K., Thilker, David A., Schinnerer, Eva, Rosolowsky, Erik, Larson, Kirsten L., Egorov, Oleg V., Williams, Thomas G., Schmidt, Judy, Emsellem, Eric, Anand, Gagandeep S., Barnes, Ashley T., Belfiore, Francesco, Beslic, Ivana, Bigiel, Frank, Blanc, Guillermo A., Bolatto, Alberto D., Boquien, Mederic, Brok, Jakob den, Cao, Yixian, Chandar, Rupali, Chastenet, Jeremy, Chevance, Melanie, Chiang, I-Da, Congiu, Enrico, Dale, Daniel A., Deger, Sinan, Eibensteiner, Cosima, Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henny, Kiana F., Henshaw, Jonathan D., Hoyer, Nils, Hughes, Annie, Jeffreson, Sarah, Jimenez-Donaire, Marıa J., Kim, Jaeyeon, Kim, Hwihyun, Klessen, Ralf S., Koch, Eric W., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Li, Jing, Liu, Daizhong, Lopez, Laura A., Maschmann, Daniel, Chen, Ness Mayker, Meidt, Sharon E., Murphy, Eric J., Neumann, Justus, Neumayer, Nadine, Pan, Hsi-An, Pessa, Ismael, Pety, Jerome, Querejeta, Miguel, Pinna, Francesca, Rodrıguez, M. Jimena, Saito, Toshiki, Sanchez-Blazquez, Patricia, Santoro, Francesco, Sardone, Amy, Smith, Rowan J., Sormani, Mattia C., Scheuermann, Fabian, Stuber, Sophia K., Sutter, Jessica, Sun, Jiayi, Teng, Yu-Hsuan, Tress, Robin G., Usero, Antonio, Watkins, Elizabeth J., Whitmore, Bradley C., Razza, Alessandro, Lee, Janice C., Sandstrom, Karin M., Leroy, Adam K., Thilker, David A., Schinnerer, Eva, Rosolowsky, Erik, Larson, Kirsten L., Egorov, Oleg V., Williams, Thomas G., Schmidt, Judy, Emsellem, Eric, Anand, Gagandeep S., Barnes, Ashley T., Belfiore, Francesco, Beslic, Ivana, Bigiel, Frank, Blanc, Guillermo A., Bolatto, Alberto D., Boquien, Mederic, Brok, Jakob den, Cao, Yixian, Chandar, Rupali, Chastenet, Jeremy, Chevance, Melanie, Chiang, I-Da, Congiu, Enrico, Dale, Daniel A., Deger, Sinan, Eibensteiner, Cosima, Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henny, Kiana F., Henshaw, Jonathan D., Hoyer, Nils, Hughes, Annie, Jeffreson, Sarah, Jimenez-Donaire, Marıa J., Kim, Jaeyeon, Kim, Hwihyun, Klessen, Ralf S., Koch, Eric W., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Li, Jing, Liu, Daizhong, Lopez, Laura A., Maschmann, Daniel, Chen, Ness Mayker, Meidt, Sharon E., Murphy, Eric J., Neumann, Justus, Neumayer, Nadine, Pan, Hsi-An, Pessa, Ismael, Pety, Jerome, Querejeta, Miguel, Pinna, Francesca, Rodrıguez, M. Jimena, Saito, Toshiki, Sanchez-Blazquez, Patricia, Santoro, Francesco, Sardone, Amy, Smith, Rowan J., Sormani, Mattia C., Scheuermann, Fabian, Stuber, Sophia K., Sutter, Jessica, Sun, Jiayi, Teng, Yu-Hsuan, Tress, Robin G., Usero, Antonio, Watkins, Elizabeth J., Whitmore, Bradley C., and Razza, Alessandro

Abstract

The PHANGS collaboration has been building a reference dataset for the multi-scale, multi-phase study of star formation and the interstellar medium in nearby galaxies. With the successful launch and commissioning of JWST, we can now obtain high-resolution infrared imaging to probe the youngest stellar populations and dust emission on the scales of star clusters and molecular clouds ($\sim$5-50 pc). In Cycle 1, PHANGS is conducting an 8-band imaging survey from 2-21$\mu$m of 19 nearby spiral galaxies. CO(2-1) mapping, optical integral field spectroscopy, and UV-optical imaging for all 19 galaxies have been obtained through large programs with ALMA, VLT/MUSE, and Hubble. PHANGS-JWST enables a full inventory of star formation, accurate measurement of the mass and age of star clusters, identification of the youngest embedded stellar populations, and characterization of the physical state of small dust grains. When combined with Hubble catalogs of $\sim$10,000 star clusters, MUSE spectroscopic mapping of $\sim$20,000 HII regions, and $\sim$12,000 ALMA-identified molecular clouds, it becomes possible to measure the timescales and efficiencies of the earliest phases of star formation and feedback, build an empirical model of the dependence of small dust grain properties on local ISM conditions, and test our understanding of how dust-reprocessed starlight traces star formation activity, all across a diversity of galactic environments. Here we describe the PHANGS-JWST Treasury survey, present the remarkable imaging obtained in the first few months of science operations, and provide context for the initial results presented in the first series of PHANGS-JWST publications., Comment: Re-submitted after addressing minor comments from referee. To be published as part of PHANGS-JWST ApJL Focus Issue

Published

2022

21. PHANGS-JWST First Results: A Global and Moderately Resolved View of Mid-Infrared and CO Line Emission from Galaxies at the Start of the JWST Era

Author

Leroy, Adam K., Bolatto, Alberto D., Sandstrom, Karin, Rosolowsky, Erik, Barnes, Ashley. T., Bigiel, F., Boquien, Médéric, Brok, Jakob S. den, Cao, Yixian, Chastenet, Jérémy, Chevance, Mélanie, Chiang, I-Da, Chown, Ryan, Colombo, Dario, Ellison, Sara L., Emsellem, Eric, Grasha, Kathryn, Henshaw, Jonathan D., Hughes, Annie, Klessen, Ralf S., Koch, Eric W., Kim, Jaeyeon, Kreckel, Kathryn, Kruijssen, J. M. Diederik, Larson, Kirsten L., Lee, Janice C., Levy, Rebecca C., Lin, Lihwai, Liu, Daizhong, Meidt, Sharon E., Pety, Jérôme, Querejeta, Miguel, Rubio, Mónica., Saito, Toshiki, Salim, Samir, Schinnerer, Eva, Sormani, Mattia C., Sun, Jiayi, Thilker, David A., Usero, Antonio, Watkins, Stuart N. Vogel Elizabeth J., Whitcomb, Cory M., Williams, Thomas G., Wilson, Christine D., Leroy, Adam K., Bolatto, Alberto D., Sandstrom, Karin, Rosolowsky, Erik, Barnes, Ashley. T., Bigiel, F., Boquien, Médéric, Brok, Jakob S. den, Cao, Yixian, Chastenet, Jérémy, Chevance, Mélanie, Chiang, I-Da, Chown, Ryan, Colombo, Dario, Ellison, Sara L., Emsellem, Eric, Grasha, Kathryn, Henshaw, Jonathan D., Hughes, Annie, Klessen, Ralf S., Koch, Eric W., Kim, Jaeyeon, Kreckel, Kathryn, Kruijssen, J. M. Diederik, Larson, Kirsten L., Lee, Janice C., Levy, Rebecca C., Lin, Lihwai, Liu, Daizhong, Meidt, Sharon E., Pety, Jérôme, Querejeta, Miguel, Rubio, Mónica., Saito, Toshiki, Salim, Samir, Schinnerer, Eva, Sormani, Mattia C., Sun, Jiayi, Thilker, David A., Usero, Antonio, Watkins, Stuart N. Vogel Elizabeth J., Whitcomb, Cory M., Williams, Thomas G., and Wilson, Christine D.

Abstract

We explore the relationship between mid-infrared (mid-IR) and CO rotational line emission from massive star-forming galaxies, which is one of the tightest scalings in the local universe. We assemble a large set of unresolved and moderately ($\sim 1$ kpc) spatially resolved measurements of CO (1-0) and CO (2-1) intensity, $I_{\rm CO}$, and mid-IR intensity, $I_{\rm MIR}$, at 8, 12, 22, and 24$\mu$m. The $I_{\rm CO}$ vs. $I_{\rm MIR}$ relationship is reasonably described by a power law with slopes $0.7{-}1.2$ and normalization $I_{\rm CO} \sim 1$ K km s$^{-1}$ at $I_{\rm MIR} \sim 1$ MJy sr$^{-1}$. Both the slopes and intercepts vary systematically with choice of line and band. The comparison between the relations measured for CO~(1-0) and CO (2-1) allow us to infer that $R_{21} \propto I_{\rm MIR}^{0.2}$, in good agreement with other work. The $8\mu$m and $12\mu$m bands, with strong PAH features, show steeper CO vs. mid-IR slopes than the $22\mu$m and $24\mu$m, consistent with PAH emission arising not just from CO-bright gas but also from atomic or CO-dark gas. The CO-to-mid-IR ratio correlates with global galaxy stellar mass ($M_\star$) and anti-correlates with SFR/$M_\star$. At $\sim 1$ kpc resolution, the first four PHANGS-JWST targets show CO to mid-IR relationships that are quantitatively similar to our larger literature sample, including showing the steep CO-to-mid-IR slopes for the JWST PAH-tracing bands, although we caution that these initial data have a small sample size and span a limited range of intensities., Comment: 29 pages, 13 figures, key quantitative results in Table 3, Accepted as part of a PHANGS-JWST Focus Issue to appear in ApJ

Published

2022

22. PHANGS-JWST First Results: A statistical view on bubble evolution in NGC628

Author

Watkins, Elizabeth J., Barnes, Ashley, Henny, Kiana F., Kim, Hwihyun, Kreckel, Kathryn, Meidt, Sharon E., Klessen, Ralf S., Glover, Simon C. O., Williams, Thomas G., Keller, B. W., Leroy, Adam K., Rosolowsky, Erik W., Boquien, Mederic, Anand, Gagandeep S., Belfiore, Francesco, Bigiel, Frank, Blanc, Guillermo, Cao, Yixian, Chandar, Rupali, Chen, Ness Mayker, Chevance, Mélanie, Congiu, Enrico, Dale, Daniel A., Deger, Sinan, Egorov, Oleg, Emsellem, Eric, Faesi, Christopher M., Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henshaw, Jonathan, Herrera, Cinthya N., Hughes, Annie, Jeffreson, Sarah, Jimenez-Donaire, Maria Jesus, Koch, Eric W., Kruijssen, J. M. Diederik, Larson, Kirsten L., Liu, Daizhong, Lopez, Laura A., Pessa, Ismael, Pety, Jerome, Querejeta, Miguel, Saito, Toshiki, Sandstrom, Karin M., Scheuermann, Fabian, Schinnerer, Eva, Sormani, Mattia C., Stuber, Sophia K., Thilker, David A., Usero, Antonio, Whitmore, Bradley C., Watkins, Elizabeth J., Barnes, Ashley, Henny, Kiana F., Kim, Hwihyun, Kreckel, Kathryn, Meidt, Sharon E., Klessen, Ralf S., Glover, Simon C. O., Williams, Thomas G., Keller, B. W., Leroy, Adam K., Rosolowsky, Erik W., Boquien, Mederic, Anand, Gagandeep S., Belfiore, Francesco, Bigiel, Frank, Blanc, Guillermo, Cao, Yixian, Chandar, Rupali, Chen, Ness Mayker, Chevance, Mélanie, Congiu, Enrico, Dale, Daniel A., Deger, Sinan, Egorov, Oleg, Emsellem, Eric, Faesi, Christopher M., Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henshaw, Jonathan, Herrera, Cinthya N., Hughes, Annie, Jeffreson, Sarah, Jimenez-Donaire, Maria Jesus, Koch, Eric W., Kruijssen, J. M. Diederik, Larson, Kirsten L., Liu, Daizhong, Lopez, Laura A., Pessa, Ismael, Pety, Jerome, Querejeta, Miguel, Saito, Toshiki, Sandstrom, Karin M., Scheuermann, Fabian, Schinnerer, Eva, Sormani, Mattia C., Stuber, Sophia K., Thilker, David A., Usero, Antonio, and Whitmore, Bradley C.

Abstract

The first JWST observations of nearby galaxies have unveiled a rich population of bubbles that trace the stellar feedback mechanisms responsible for their creation. Studying these bubbles therefore allows us to chart the interaction between stellar feedback and the interstellar medium, and the larger galactic flows needed to regulate star formation processes globally. We present the first catalog of bubbles in NGC628, visually identified using MIRI F770W PHANGS-JWST observations, and use them to statistically evaluate bubble characteristics. We classify 1694 structures as bubbles with radii between 6-552 pc. Of these, 31% contain at least one smaller bubble at their edge, indicating that previous generations of star formation have a local impact on where new stars form. On large scales, most bubbles lie near a spiral arm, and their radii increase downstream compared to upstream. Furthermore, bubbles are elongated in a similar direction to the spiral arm ridge-line. These azimuthal trends demonstrate that star formation is intimately connected to the spiral arm passage. Finally, the bubble size distribution follows a power-law of index $p=-2.2\pm0.1$, which is slightly shallower than the theoretical value by 1-3.5$\sigma$ that did not include bubble mergers. The fraction of bubbles identified within the shells of larger bubbles suggests that bubble merging is a common process. Our analysis therefore allows us to quantify the number of star-forming regions that are influenced by an earlier generation, and the role feedback processes have in setting the global star formation rate. With the full PHANGS-JWST sample, we can do this for more galaxies., Comment: 25 pages total, 13 Figures and 1 Table. Accepted for publication in ApJL as part of a PHANGS-JWST First Results Focus issue

Published

2022

23. PHANGS-JWST First Results: Multi-wavelength view of feedback-driven bubbles (The Phantom Voids) across NGC 628

Author

Barnes, Ashley T., Watkins, Elizabeth J., Meidt, Sharon E., Kreckel, Kathryn, Sormani, Mattia C., Tress, Robin G., Glover, Simon C. O., Bigiel, Frank, Chandar, Rupali, Emsellem, Eric, Lee, Janice C., Leroy, Adam K., Sandstrom, Karin M., Schinnerer, Eva, Rosolowsky, Erik W., Belfiore, Francesco, Blanc, Guillermo, Boquien, Mederic, Brok, Jakob S. den, Cao, Yixian, Chevance, Mélanie, Dale, Daniel A., Egorov, Oleg, Eibensteiner, Cosima, Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henshaw, Jonathan, Jeffreson, Sarah, Jimenez-Donaire, Maria Jesus, Keller, Benjamin W., Klessen, Ralf S., Koch, Eric W., Kruijssen, J. M. Diederik, Larson, Kirsten L., Li, Jing, Liu, Daizhong, Lopez, Laura A., Murphy, Eric J., Neumann, Lukas, Pety, Jerome, Pinna, Francesca, Querejeta, Miguel, Renaud, Florent, Saito, Toshiki, Sarbadhicary, Sumit, Sardone, Amy, Smith, Rowan J., Stuber, Sophia K., Sun, Jiayi, Thilker, David A., Usero, Antonio, Whitmore, Bradley C., Williams, Thomas G., Barnes, Ashley T., Watkins, Elizabeth J., Meidt, Sharon E., Kreckel, Kathryn, Sormani, Mattia C., Tress, Robin G., Glover, Simon C. O., Bigiel, Frank, Chandar, Rupali, Emsellem, Eric, Lee, Janice C., Leroy, Adam K., Sandstrom, Karin M., Schinnerer, Eva, Rosolowsky, Erik W., Belfiore, Francesco, Blanc, Guillermo, Boquien, Mederic, Brok, Jakob S. den, Cao, Yixian, Chevance, Mélanie, Dale, Daniel A., Egorov, Oleg, Eibensteiner, Cosima, Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Henshaw, Jonathan, Jeffreson, Sarah, Jimenez-Donaire, Maria Jesus, Keller, Benjamin W., Klessen, Ralf S., Koch, Eric W., Kruijssen, J. M. Diederik, Larson, Kirsten L., Li, Jing, Liu, Daizhong, Lopez, Laura A., Murphy, Eric J., Neumann, Lukas, Pety, Jerome, Pinna, Francesca, Querejeta, Miguel, Renaud, Florent, Saito, Toshiki, Sarbadhicary, Sumit, Sardone, Amy, Smith, Rowan J., Stuber, Sophia K., Sun, Jiayi, Thilker, David A., Usero, Antonio, Whitmore, Bradley C., and Williams, Thomas G.

Abstract

We present a high-resolution view of bubbles within The Phantom Galaxy (NGC 628); a nearby (~10Mpc), star-forming (~2Msun/yr), face-on (i~9deg) grand-design spiral galaxy. With new data obtained as part of the PHANGS-JWST treasury program, we perform a detailed case-study of two regions of interest, one of which contains the largest and most prominent bubble in the galaxy (The Phantom Void; over 1kpc in diameter), and the other being a smaller region that may be the precursor to such a large bubble (The Precursor Phantom Void). When comparing to matched resolution Halpha observations from the Hubble Space Telescope (HST), we see that the ionized gas is brightest in the shells of both bubbles, and is coincident with the youngest (~1Myr) and most massive (~100,000Msun) stellar associations. We also find an older generation (~20Myr) of stellar associations is present within the bubble of The Phantom Void. From our kinematic analysis of the HI, H2 (CO) and HII gas across The Phantom Void, we infer a high expansion speed of around 15 to 50km/s. The large size and high expansion speed of The Phantom Void suggest that the driving mechanism is sustained stellar feedback due to multiple mechanisms, where early feedback first cleared a bubble (as we observe now in The Precursor Phantom Void), and since then SNe have been exploding within the cavity, and have accelerated the shell. Finally, comparison to simulations shows a striking resemblance to our JWST observations, and suggests that such large-scale stellar feedback-driven bubbles should be common within other galaxies., Comment: 12 pages total, 8 figures, and 1 table. Accepted as part of a PHANGS-JWST Focus Issue to appear in ApJ

Published

2022

24. The Astropy Project: Sustaining and Growing a Community-oriented Open-source Project and the Latest Major Release (v5.0) of the Core Package

Author

The Astropy Collaboration, Price-Whelan, Adrian M., Lim, Pey Lian, Earl, Nicholas, Starkman, Nathaniel, Bradley, Larry, Shupe, David L., Patil, Aarya A., Corrales, Lia, Brasseur, C. E., Nöthe, Maximilian, Donath, Axel, Tollerud, Erik, Morris, Brett M., Ginsburg, Adam, Vaher, Eero, Weaver, Benjamin A., Tocknell, James, Jamieson, William, van Kerkwijk, Marten H., Robitaille, Thomas P., Merry, Bruce, Bachetti, Matteo, Günther, H. Moritz, Aldcroft, Thomas L., Alvarado-Montes, Jaime A., Archibald, Anne M., Bódi, Attila, Bapat, Shreyas, Barentsen, Geert, Bazán, Juanjo, Biswas, Manish, Boquien, Médéric, Burke, D. J., Cara, Daria, Cara, Mihai, Conroy, Kyle E, Conseil, Simon, Craig, Matthew W., Cross, Robert M., Cruz, Kelle L., D'Eugenio, Francesco, Dencheva, Nadia, Devillepoix, Hadrien A. R., Dietrich, Jörg P., Eigenbrot, Arthur Davis, Erben, Thomas, Ferreira, Leonardo, Foreman-Mackey, Daniel, Fox, Ryan, Freij, Nabil, Garg, Suyog, Geda, Robel, Glattly, Lauren, Gondhalekar, Yash, Gordon, Karl D., Grant, David, Greenfield, Perry, Groener, Austen M., Guest, Steve, Gurovich, Sebastian, Handberg, Rasmus, Hart, Akeem, Hatfield-Dodds, Zac, Homeier, Derek, Hosseinzadeh, Griffin, Jenness, Tim, Jones, Craig K., Joseph, Prajwel, Kalmbach, J. Bryce, Karamehmetoglu, Emir, Kałuszyński, Mikołaj, Kelley, Michael S. P., Kern, Nicholas, Kerzendorf, Wolfgang E., Koch, Eric W., Kulumani, Shankar, Lee, Antony, Ly, Chun, Ma, Zhiyuan, MacBride, Conor, Maljaars, Jakob M., Muna, Demitri, Murphy, N. A., Norman, Henrik, O'Steen, Richard, Oman, Kyle A., Pacifici, Camilla, Pascual, Sergio, Pascual-Granado, J., Patil, Rohit R., Perren, Gabriel I, Pickering, Timothy E., Rastogi, Tanuj, Roulston, Benjamin R., Ryan, Daniel F, Rykoff, Eli S., Sabater, Jose, Sakurikar, Parikshit, Salgado, Jesús, Sanghi, Aniket, Saunders, Nicholas, Savchenko, Volodymyr, Schwardt, Ludwig, Seifert-Eckert, Michael, Shih, Albert Y., Jain, Anany Shrey, Shukla, Gyanendra, Sick, Jonathan, Simpson, Chris, Singanamalla, Sudheesh, Singer, Leo P., Singhal, Jaladh, Sinha, Manodeep, Sipőcz, Brigitta M., Spitler, Lee R., Stansby, David, Streicher, Ole, Šumak, Jani, Swinbank, John D., Taranu, Dan S., Tewary, Nikita, Tremblay, Grant R., de Val-Borro, Miguel, Van Kooten, Samuel J., Vasović, Zlatan, Verma, Shresth, Cardoso, José Vinícius de Miranda, Williams, Peter K. G., Wilson, Tom J., Winkel, Benjamin, Wood-Vasey, W. M., Xue, Rui, Yoachim, Peter, ZHANG, Chen, Zonca, Andrea, The Astropy Collaboration, Price-Whelan, Adrian M., Lim, Pey Lian, Earl, Nicholas, Starkman, Nathaniel, Bradley, Larry, Shupe, David L., Patil, Aarya A., Corrales, Lia, Brasseur, C. E., Nöthe, Maximilian, Donath, Axel, Tollerud, Erik, Morris, Brett M., Ginsburg, Adam, Vaher, Eero, Weaver, Benjamin A., Tocknell, James, Jamieson, William, van Kerkwijk, Marten H., Robitaille, Thomas P., Merry, Bruce, Bachetti, Matteo, Günther, H. Moritz, Aldcroft, Thomas L., Alvarado-Montes, Jaime A., Archibald, Anne M., Bódi, Attila, Bapat, Shreyas, Barentsen, Geert, Bazán, Juanjo, Biswas, Manish, Boquien, Médéric, Burke, D. J., Cara, Daria, Cara, Mihai, Conroy, Kyle E, Conseil, Simon, Craig, Matthew W., Cross, Robert M., Cruz, Kelle L., D'Eugenio, Francesco, Dencheva, Nadia, Devillepoix, Hadrien A. R., Dietrich, Jörg P., Eigenbrot, Arthur Davis, Erben, Thomas, Ferreira, Leonardo, Foreman-Mackey, Daniel, Fox, Ryan, Freij, Nabil, Garg, Suyog, Geda, Robel, Glattly, Lauren, Gondhalekar, Yash, Gordon, Karl D., Grant, David, Greenfield, Perry, Groener, Austen M., Guest, Steve, Gurovich, Sebastian, Handberg, Rasmus, Hart, Akeem, Hatfield-Dodds, Zac, Homeier, Derek, Hosseinzadeh, Griffin, Jenness, Tim, Jones, Craig K., Joseph, Prajwel, Kalmbach, J. Bryce, Karamehmetoglu, Emir, Kałuszyński, Mikołaj, Kelley, Michael S. P., Kern, Nicholas, Kerzendorf, Wolfgang E., Koch, Eric W., Kulumani, Shankar, Lee, Antony, Ly, Chun, Ma, Zhiyuan, MacBride, Conor, Maljaars, Jakob M., Muna, Demitri, Murphy, N. A., Norman, Henrik, O'Steen, Richard, Oman, Kyle A., Pacifici, Camilla, Pascual, Sergio, Pascual-Granado, J., Patil, Rohit R., Perren, Gabriel I, Pickering, Timothy E., Rastogi, Tanuj, Roulston, Benjamin R., Ryan, Daniel F, Rykoff, Eli S., Sabater, Jose, Sakurikar, Parikshit, Salgado, Jesús, Sanghi, Aniket, Saunders, Nicholas, Savchenko, Volodymyr, Schwardt, Ludwig, Seifert-Eckert, Michael, Shih, Albert Y., Jain, Anany Shrey, Shukla, Gyanendra, Sick, Jonathan, Simpson, Chris, Singanamalla, Sudheesh, Singer, Leo P., Singhal, Jaladh, Sinha, Manodeep, Sipőcz, Brigitta M., Spitler, Lee R., Stansby, David, Streicher, Ole, Šumak, Jani, Swinbank, John D., Taranu, Dan S., Tewary, Nikita, Tremblay, Grant R., de Val-Borro, Miguel, Van Kooten, Samuel J., Vasović, Zlatan, Verma, Shresth, Cardoso, José Vinícius de Miranda, Williams, Peter K. G., Wilson, Tom J., Winkel, Benjamin, Wood-Vasey, W. M., Xue, Rui, Yoachim, Peter, ZHANG, Chen, and Zonca, Andrea

Abstract

The Astropy Project supports and fosters the development of open-source and openly-developed Python packages that provide commonly needed functionality to the astronomical community. A key element of the Astropy Project is the core package $\texttt{astropy}$, which serves as the foundation for more specialized projects and packages. In this article, we summarize key features in the core package as of the recent major release, version 5.0, and provide major updates for the Project. We then discuss supporting a broader ecosystem of interoperable packages, including connections with several astronomical observatories and missions. We also revisit the future outlook of the Astropy Project and the current status of Learn Astropy. We conclude by raising and discussing the current and future challenges facing the Project., Comment: 43 pages, 5 figures. To appear in ApJ. The author list has two parts: the authors that made significant contributions to the writing and/or coordination of the paper, followed by maintainers of and contributors to the Astropy Project. The position in the author list does not correspond to contributions to the Astropy Project as a whole

Published

2022

25. Molecular Cloud Populations in the Context of Their Host Galaxy Environments: A Multiwavelength Perspective

Author

Sun, Jiayi, Leroy, Adam K., Rosolowsky, Erik, Hughes, Annie, Schinnerer, Eva, Schruba, Andreas, Koch, Eric W., Blanc, Guillermo A., Chiang, I-Da, Groves, Brent, Liu, Daizhong, Meidt, Sharon, Pan, Hsi-An, Pety, Jerome, Querejeta, Miguel, Saito, Toshiki, Sandstrom, Karin, Sardone, Amy, Usero, Antonio, Utomo, Dyas, Williams, Thomas G., Barnes, Ashley T., Benincasa, Samantha M., Bigiel, Frank, Bolatto, Alberto D., Boquien, Mederic, Chevance, Melanie, Dale, Daniel A., Deger, Sinan, Emsellem, Eric, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Ostriker, Eve C., Thilker, David A., Sun, Jiayi, Leroy, Adam K., Rosolowsky, Erik, Hughes, Annie, Schinnerer, Eva, Schruba, Andreas, Koch, Eric W., Blanc, Guillermo A., Chiang, I-Da, Groves, Brent, Liu, Daizhong, Meidt, Sharon, Pan, Hsi-An, Pety, Jerome, Querejeta, Miguel, Saito, Toshiki, Sandstrom, Karin, Sardone, Amy, Usero, Antonio, Utomo, Dyas, Williams, Thomas G., Barnes, Ashley T., Benincasa, Samantha M., Bigiel, Frank, Bolatto, Alberto D., Boquien, Mederic, Chevance, Melanie, Dale, Daniel A., Deger, Sinan, Emsellem, Eric, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Ostriker, Eve C., and Thilker, David A.

Abstract

We present a rich, multiwavelength, multiscale database built around the PHANGS-ALMA CO$\,$(2-1) survey and ancillary data. We use this database to present the distributions of molecular cloud populations and sub-galactic environments in 80 PHANGS galaxies, to characterize the relationship between population-averaged cloud properties and host galaxy properties, and to assess key timescales relevant to molecular cloud evolution and star formation. We show that PHANGS probes a wide range of kpc-scale gas, stellar, and star formation rate (SFR) surface densities, as well as orbital velocities and shear. The population-averaged cloud properties in each aperture correlate strongly with both local environmental properties and host galaxy global properties. Leveraging a variable selection analysis, we find that the kpc-scale surface densities of molecular gas and SFR tend to possess the most predictive power for the population-averaged cloud properties. Once their variations are controlled for, galaxy global properties contain little additional information, which implies that the apparent galaxy-to-galaxy variations in cloud populations are likely mediated by kpc-scale environmental conditions. We further estimate a suite of important timescales from our multiwavelength measurements. The cloud-scale free-fall time and turbulence crossing time are ${\sim}5{-}20$ Myr, comparable to previous cloud lifetime estimates. The timescales for orbital motion, shearing, and cloud-cloud collisions are longer, ${\sim}100$ Myr. The molecular gas depletion time is $1{-}3$ Gyr and shows weak to no correlations with the other timescales in our data. We publish our measurements online and expect them to have broad utility to future studies of molecular clouds and star formation., Comment: 32 pages + 6 appendices. AJ in press. Data products available at https://www.canfar.net/storage/list/phangs/RELEASES/Sun_etal_2022 . Associated software package available at https://doi.org/10.5281/zenodo.6584842 . Slides summarizing the key results can be found at https://www.dropbox.com/s/7llnrob9wi0isfk/Sun_et_PHANGS_2022.pptx?dl=0

Published

2022

26. The PHANGS-MUSE survey -- Probing the chemo-dynamical evolution of disc galaxies

Author

Emsellem, Eric, Schinnerer, Eva, Santoro, Francesco, Belfiore, Francesco, Pessa, Ismael, McElroy, Rebecca, Blanc, Guillermo A., Congiu, Enrico, Groves, Brent, Ho, I-Ting, Kreckel, Kathryn, Razza, Alessandro, Sanchez-Blazquez, Patricia, Egorov, Oleg, Faesi, Chris, Klessen, Ralf S., Leroy, Adam K., Meidt, Sharon, Querejeta, Miguel, Rosolowsky, Erik, Scheuermann, Fabian, Anand, Gagandeep S., Barnes, Ashley T., Bešlić, Ivana, Bigiel, Frank, Boquien, Médéric, Cao, Yixian, Chevance, Mélanie, Dale, Daniel A., Eibensteiner, Cosima, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Hughes, Annie, Koch, Eric W., Kruijssen, J. M. Diederik, Lee, Janice, Liu, Daizhong, Pan, Hsi-An, Pety, Jérôme, Saito, Toshiki, Sandstrom, Karin M., Schruba, Andreas, Sun, Jiayi, Thilker, David A., Usero, Antonio, Watkins, Elizabeth J., Williams, Thomas G., Emsellem, Eric, Schinnerer, Eva, Santoro, Francesco, Belfiore, Francesco, Pessa, Ismael, McElroy, Rebecca, Blanc, Guillermo A., Congiu, Enrico, Groves, Brent, Ho, I-Ting, Kreckel, Kathryn, Razza, Alessandro, Sanchez-Blazquez, Patricia, Egorov, Oleg, Faesi, Chris, Klessen, Ralf S., Leroy, Adam K., Meidt, Sharon, Querejeta, Miguel, Rosolowsky, Erik, Scheuermann, Fabian, Anand, Gagandeep S., Barnes, Ashley T., Bešlić, Ivana, Bigiel, Frank, Boquien, Médéric, Cao, Yixian, Chevance, Mélanie, Dale, Daniel A., Eibensteiner, Cosima, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Hughes, Annie, Koch, Eric W., Kruijssen, J. M. Diederik, Lee, Janice, Liu, Daizhong, Pan, Hsi-An, Pety, Jérôme, Saito, Toshiki, Sandstrom, Karin M., Schruba, Andreas, Sun, Jiayi, Thilker, David A., Usero, Antonio, Watkins, Elizabeth J., and Williams, Thomas G.

Abstract

We present the PHANGS-MUSE survey, a programme using the MUSE IFS at the ESO VLT to map 19 massive $(9.4 < \log(M_{*}/M_\odot) < 11.0)$ nearby (D < 20 Mpc) star-forming disc galaxies. The survey consists of 168 MUSE pointings (1'x1' each), a total of nearly 15 Million spectra, covering ~1.5 Million independent spectra. PHANGS-MUSE provides the first IFS view of star formation across different local environments (including galaxy centres, bars, spiral arms) in external galaxies at a median resolution of 50~pc, better than the mean inter-cloud distance in the ionised interstellar medium. This `cloud-scale' resolution allows detailed demographics and characterisations of HII regions and other ionised nebulae. PHANGS-MUSE further delivers a unique view on the associated gas and stellar kinematics, and provides constraints on the star formation history. The PHANGS-MUSE survey is complemented by dedicated ALMA CO(2-1) and multi-band HST observations, therefore allowing us to probe the key stages of the star formation process from molecular clouds to HII regions and star clusters. This paper describes the scientific motivation, sample selection, observational strategy, data reduction and analysis process of the PHANGS-MUSE survey. We present our bespoke automated data-reduction framework, which is built on the reduction recipes provided by ESO, but additionally allows for mosaicking and homogenisation of the point spread function. We further present a detailed quality assessment and a brief illustration of the potential scientific applications of the large set of PHANGS-MUSE data products generated by our data analysis framework. The data cubes and analysis data products described in this paper represent the basis for the first PHANGS-MUSE public data release and are available in the ESO archive and via the Canadian Astronomy Data Centre., Comment: 48 pages, 28 figures, 4 tables, accepted for pub in A&A, Dec 8, 2021. Data products released publicly at this address https://archive.eso.org/scienceportal/home?data_collection=PHANGS

Published

2021

27. The HASHTAG project: The First Submillimeter Images of the Andromeda Galaxy from the Ground

Author

Smith, Matthew W. L., Eales, Stephen A., Williams, Thomas G., Lee, Bumhyun, Li, Zongnan, Barmby, Pauline, Bureau, Martin, Chapman, Scott, Cho, Brian S., Chung, Aeree, Chung, Eun Jung, Chung, Hui-Hsuan, Clark, Christopher J. R., Clements, David L., Davis, Timothy A., De Looze, Ilse, Eden, David J., Athikkat-Eknath, Gayathri, Ford, George P., Gao, Yu, Gear, Walter, Gomez, Haley L., de Grijs, Richard, He, Jinhua, Ho, Luis C., Hughes, Thomas M., Jiao, Sihan, Li, Zhiyuan, Kemper, Francisca, Kirchschlager, Florian, Koch, Eric W., Kong, Albert K. H., Lee, Chien-Hsiu, Lin, En-Tzu, Mairs, Steve, Michalowski, Michal J., Pattle, Kate, Peng, Yingjie, Ragan, Sarah E., Rawlings, Mark G., Rigopoulou, Dimitra, Saintonge, Amelie, Schruba, Andreas, Tang, Xindi, Wang, Junfeng, Whitworth, Anthony P., Wilson, Christine D., Yim, Kijeong, Zhu, Ming, Smith, Matthew W. L., Eales, Stephen A., Williams, Thomas G., Lee, Bumhyun, Li, Zongnan, Barmby, Pauline, Bureau, Martin, Chapman, Scott, Cho, Brian S., Chung, Aeree, Chung, Eun Jung, Chung, Hui-Hsuan, Clark, Christopher J. R., Clements, David L., Davis, Timothy A., De Looze, Ilse, Eden, David J., Athikkat-Eknath, Gayathri, Ford, George P., Gao, Yu, Gear, Walter, Gomez, Haley L., de Grijs, Richard, He, Jinhua, Ho, Luis C., Hughes, Thomas M., Jiao, Sihan, Li, Zhiyuan, Kemper, Francisca, Kirchschlager, Florian, Koch, Eric W., Kong, Albert K. H., Lee, Chien-Hsiu, Lin, En-Tzu, Mairs, Steve, Michalowski, Michal J., Pattle, Kate, Peng, Yingjie, Ragan, Sarah E., Rawlings, Mark G., Rigopoulou, Dimitra, Saintonge, Amelie, Schruba, Andreas, Tang, Xindi, Wang, Junfeng, Whitworth, Anthony P., Wilson, Christine D., Yim, Kijeong, and Zhu, Ming

Abstract

Observing nearby galaxies with submillimeter telescopes on the ground has two major challenges. First, the brightness is significantly reduced at long submillimeter wavelengths compared to the brightness at the peak of the dust emission. Second, it is necessary to use a high-pass spatial filter to remove atmospheric noise on large angular scales, which has the unwelcome by-product of also removing the galaxy's large-scale structure. We have developed a technique for producing high-resolution submillimeter images of galaxies of large angular size by using the telescope on the ground to determine the small-scale structure (the large Fourier components) and a space telescope (Herschel or Planck) to determine the large-scale structure (the small Fourier components). Using this technique, we are carrying out the HARP and SCUBA-2 High Resolution Terahertz Andromeda Galaxy Survey (HASHTAG), an international Large Program on the James Clerk Maxwell Telescope, with one aim being to produce the first high-fidelity high-resolution submillimeter images of Andromeda. In this paper, we describe the survey, the method we have developed for combining the space-based and ground-based data, and present the first HASHTAG images of Andromeda at 450 and 850um. We also have created a method to predict the CO(J=3-2) line flux across M31, which contaminates the 850um band. We find that while normally the contamination is below our sensitivity limit, the contamination can be significant (up to 28%) in a few of the brightest regions of the 10 kpc ring. We therefore also provide images with the predicted line emission removed., Comment: 26 pages, 19 figures. Submitted to ApJS June 2021, Accepted September 2021

Published

2021

28. Low-J CO Line Ratios From Single Dish CO Mapping Surveys and PHANGS-ALMA

Author

Leroy, Adam K., Rosolowsky, Erik, Usero, Antonio, Sandstrom, Karin, Schinnerer, Eva, Schruba, Andreas, Bolatto, Alberto D., Sun, Jiayi, Barnes, Ashley. T., Belfiore, Francesco, Bigiel, Frank, Brok, Jakob S. den, Cao, Yixian, Chiang, I-Da, Chevance, Mélanie, Dale, Daniel A., Eibensteiner, Cosima, Faesi, Christopher M., Glover, Simon C. O., Hughes, Annie, Donaire, Maria J. Jiménez, Klessen, Ralf S., Koch, Eric W., Kruijssen, J. M. Diederik, Liu, Daizhong, Meidt, Sharon E., Pan, Hsi-An, Pety, Jérôme, Puschnig, Johannes, Querejeta, Miguel, Saito, Toshiki, Sardone, Amy, Watkins, Elizabeth J., Weiss, Axel, Williams, Thomas G., Leroy, Adam K., Rosolowsky, Erik, Usero, Antonio, Sandstrom, Karin, Schinnerer, Eva, Schruba, Andreas, Bolatto, Alberto D., Sun, Jiayi, Barnes, Ashley. T., Belfiore, Francesco, Bigiel, Frank, Brok, Jakob S. den, Cao, Yixian, Chiang, I-Da, Chevance, Mélanie, Dale, Daniel A., Eibensteiner, Cosima, Faesi, Christopher M., Glover, Simon C. O., Hughes, Annie, Donaire, Maria J. Jiménez, Klessen, Ralf S., Koch, Eric W., Kruijssen, J. M. Diederik, Liu, Daizhong, Meidt, Sharon E., Pan, Hsi-An, Pety, Jérôme, Puschnig, Johannes, Querejeta, Miguel, Saito, Toshiki, Sardone, Amy, Watkins, Elizabeth J., Weiss, Axel, and Williams, Thomas G.

Abstract

We measure the low-J CO line ratio R21=CO(2-1)/CO(1-0), R32=CO(3-2)/CO(2-1), and R31 = CO(3-2)/CO(1-0) using whole-disk CO maps of nearby galaxies. We draw CO(2-1) from PHANGS--ALMA, HERACLES, and follow-up IRAM surveys; CO(1-0) from COMING and the Nobeyama CO Atlas of Nearby Spiral Galaxies; and CO(3-2) from the JCMT NGLS and APEX LASMA mapping. Altogether this yields 76, 47, and 29 maps of R21, R32, and R31 at 20" \sim 1.3 kpc resolution, covering 43, 34, and 20 galaxies. Disk galaxies with high stellar mass, log10 M_* [Msun]=10.25-11 and star formation rate, SFR=1-5 Msun/yr, dominate the sample. We find galaxy-integrated mean values and 16%-84% range of R21 = 0.65 (0.50-0.83), R32=0.50 (0.23-0.59), and R31=0.31 (0.20-0.42). We identify weak trends relating galaxy-integrated line ratios to properties expected to correlate with excitation, including SFR/M_* and SFR/L_CO. Within galaxies, we measure central enhancements with respect to the galaxy-averaged value of \sim 0.18^{+0.09}_{-0.14} dex for R21, 0.27^{+0.13}_{-0.15} dex for R31, and 0.08^{+0.11}_{-0.09} dex for R32. All three line ratios anti-correlate with galactocentric radius and positively correlate with the local star formation rate surface density and specific star formation rate, and we provide approximate fits to these relations. The observed ratios can be reasonably reproduced by models with low temperature, moderate opacity, and moderate densities, in good agreement with expectations for the cold ISM. Because the line ratios are expected to anti-correlate with the CO(1-0)-to-H_2 conversion factor, alphaCO^(1-0), these results have general implications for the interpretation of CO emission from galaxies., Comment: 34 pages; 12 figures; accepted for publication in the Astrophysical Journal; data tables available http://www.astronomy.ohio-state.edu/~leroy.42/int_corat_tab.ecsv and http://www.astronomy.ohio-state.edu/~leroy.42/co_model.ecsv before publication

Published

2021

29. On the Three-Dimensional Structure of Local Molecular Clouds

Author

Zucker, Catherine, Goodman, Alyssa, Alves, João, Bialy, Shmuel, Koch, Eric W., Speagle, Joshua S., Foley, Michael M., Finkbeiner, Douglas, Leike, Reimar, Enßlin, Torsten, Peek, Joshua E. G., Edenhofer, Gordian, Zucker, Catherine, Goodman, Alyssa, Alves, João, Bialy, Shmuel, Koch, Eric W., Speagle, Joshua S., Foley, Michael M., Finkbeiner, Douglas, Leike, Reimar, Enßlin, Torsten, Peek, Joshua E. G., and Edenhofer, Gordian

Abstract

We leverage the 1 pc spatial resolution of the Leike et al. 2020 3D dust map to characterize the three-dimensional structure of nearby molecular clouds ($d \lesssim 400$ pc). We start by "skeletonizing" the clouds in 3D volume density space to determine their "spines," which we project on the sky to constrain cloud distances with $\approx 1\%$ uncertainty. For each cloud, we determine an average radial volume density profile around its 3D spine and fit the profiles using Gaussian and Plummer functions. The radial volume density profiles are well-described by a two-component Gaussian function, consistent with clouds having broad, lower-density outer envelopes and narrow, higher-density inner layers. The ratio of the outer to inner envelope widths is $\approx 3:1$. We hypothesize that these two components may be tracing a transition between atomic and diffuse molecular gas or between the unstable and cold neutral medium. Plummer-like models can also provide a good fit, with molecular clouds exhibiting shallow power-law wings with density, $n$, falling off like $n^{-2}$ at large radii. Using Bayesian model selection, we find that parameterizing the clouds' profiles using a single Gaussian is disfavored. We compare our results with 2D dust extinction maps, finding that the 3D dust recovers the total cloud mass from integrated approaches with fidelity, deviating only at higher levels of extinction ($A_V \gtrsim 2 - 3$ mag). The 3D cloud structure described here will enable comparisons with synthetic clouds generated in simulations, offering unprecedented insight into the origins and fates of molecular clouds in the interstellar medium., Comment: Published in ApJ. For data behind the figures see https://dataverse.harvard.edu/dataverse/3D_cloud_structure . For interactive gallery of local clouds see https://faun.rc.fas.harvard.edu/czucker/Paper_Figures/3D_Cloud_Topologies/gallery.html . Companion paper to Bialy et al. 2021 (arXiv:2109.09763). For press see https://www.cfa.harvard.edu/news/gigantic-cavity-space-sheds-new-light-how-stars-form

Published

2021

30. Local Environments of Low-Redshift Supernovae

Author

Cronin, Serena A., Utomo, Dyas, Leroy, Adam K., Behrens, Erica A., Chastenet, Jeremy, Holland-Ashford, Tyler, Koch, Eric W., Lopez, Laura A., Sandstrom, Karin M., Williams, Thomas G., Cronin, Serena A., Utomo, Dyas, Leroy, Adam K., Behrens, Erica A., Chastenet, Jeremy, Holland-Ashford, Tyler, Koch, Eric W., Lopez, Laura A., Sandstrom, Karin M., and Williams, Thomas G.

Abstract

We characterize the local (2-kpc sized) environments of Type Ia, II, and Ib/c supernovae (SNe) that have recently occurred in nearby ($d\lesssim50$ Mpc) galaxies. Using ultraviolet (UV, from GALEX) and infrared (IR, from WISE) maps of 359 galaxies and a sample of 472 SNe, we measure the star formation rate surface density ($\Sigma_{\rm SFR}$) and stellar mass surface density ($\Sigma_\star$) in a 2-kpc beam centered on each SN site. We show that core-collapse SNe are preferentially located along the resolved galactic star-forming main sequence, whereas Type Ia SNe are extended to lower values of $\Sigma_{\rm SFR}$ at fixed $\Sigma_\star$, indicative of locations inside quiescent galaxies or quiescent regions of galaxies. We also test how well the radial distribution of each SN type matches the radial distributions of UV and IR light in each host galaxy. We find that, to first order, the distributions of all types of SNe mirror that of both near-IR light (3.4 and 4.5 microns, tracing the stellar mass distribution) and mid-IR light (12 and 22 microns, tracing emission from hot, small grains), and also resemble our best-estimate $\Sigma_{\rm SFR}$. All types of SNe appear more radially concentrated than the UV emission of their host galaxies. In more detail, the distributions of Type II SNe show small statistical differences from that of near-IR light. We attribute this overall structural uniformity to the fact that within any individual galaxy, $\Sigma_{\rm SFR}$ and $\Sigma_\star$ track one another well, with variations in $\Sigma_{\rm SFR}/\Sigma_\star$ most visible when comparing between galaxies.

Published

2021

31. The HASHTAG project: The First Submillimeter Images of the Andromeda Galaxy from the Ground

Author

Smith, Matthew W. L., Eales, Stephen A., Williams, Thomas G., Lee, Bumhyun, Li, Zongnan, Barmby, Pauline, Bureau, Martin, Chapman, Scott, Cho, Brian S., Chung, Aeree, Chung, Eun Jung, Chung, Hui-Hsuan, Clark, Christopher J. R., Clements, David L., Davis, Timothy A., De Looze, Ilse, Eden, David J., Athikkat-Eknath, Gayathri, Ford, George P., Gao, Yu, Gear, Walter, Gomez, Haley L., de Grijs, Richard, He, Jinhua, Ho, Luis C., Hughes, Thomas M., Jiao, Sihan, Li, Zhiyuan, Kemper, Francisca, Kirchschlager, Florian, Koch, Eric W., Kong, Albert K. H., Lee, Chien-Hsiu, Lin, En-Tzu, Mairs, Steve, Michalowski, Michal J., Pattle, Kate, Peng, Yingjie, Ragan, Sarah E., Rawlings, Mark G., Rigopoulou, Dimitra, Saintonge, Amelie, Schruba, Andreas, Tang, Xindi, Wang, Junfeng, Whitworth, Anthony P., Wilson, Christine D., Yim, Kijeong, Zhu, Ming, Smith, Matthew W. L., Eales, Stephen A., Williams, Thomas G., Lee, Bumhyun, Li, Zongnan, Barmby, Pauline, Bureau, Martin, Chapman, Scott, Cho, Brian S., Chung, Aeree, Chung, Eun Jung, Chung, Hui-Hsuan, Clark, Christopher J. R., Clements, David L., Davis, Timothy A., De Looze, Ilse, Eden, David J., Athikkat-Eknath, Gayathri, Ford, George P., Gao, Yu, Gear, Walter, Gomez, Haley L., de Grijs, Richard, He, Jinhua, Ho, Luis C., Hughes, Thomas M., Jiao, Sihan, Li, Zhiyuan, Kemper, Francisca, Kirchschlager, Florian, Koch, Eric W., Kong, Albert K. H., Lee, Chien-Hsiu, Lin, En-Tzu, Mairs, Steve, Michalowski, Michal J., Pattle, Kate, Peng, Yingjie, Ragan, Sarah E., Rawlings, Mark G., Rigopoulou, Dimitra, Saintonge, Amelie, Schruba, Andreas, Tang, Xindi, Wang, Junfeng, Whitworth, Anthony P., Wilson, Christine D., Yim, Kijeong, and Zhu, Ming

Abstract

Observing nearby galaxies with submillimeter telescopes on the ground has two major challenges. First, the brightness is significantly reduced at long submillimeter wavelengths compared to the brightness at the peak of the dust emission. Second, it is necessary to use a high-pass spatial filter to remove atmospheric noise on large angular scales, which has the unwelcome by-product of also removing the galaxy's large-scale structure. We have developed a technique for producing high-resolution submillimeter images of galaxies of large angular size by using the telescope on the ground to determine the small-scale structure (the large Fourier components) and a space telescope (Herschel or Planck) to determine the large-scale structure (the small Fourier components). Using this technique, we are carrying out the HARP and SCUBA-2 High Resolution Terahertz Andromeda Galaxy Survey (HASHTAG), an international Large Program on the James Clerk Maxwell Telescope, with one aim being to produce the first high-fidelity high-resolution submillimeter images of Andromeda. In this paper, we describe the survey, the method we have developed for combining the space-based and ground-based data, and present the first HASHTAG images of Andromeda at 450 and 850um. We also have created a method to predict the CO(J=3-2) line flux across M31, which contaminates the 850um band. We find that while normally the contamination is below our sensitivity limit, the contamination can be significant (up to 28%) in a few of the brightest regions of the 10 kpc ring. We therefore also provide images with the predicted line emission removed., Comment: 26 pages, 19 figures. Submitted to ApJS June 2021, Accepted September 2021

Published

2021

32. The PHANGS-MUSE survey -- Probing the chemo-dynamical evolution of disc galaxies

Author

Emsellem, Eric, Schinnerer, Eva, Santoro, Francesco, Belfiore, Francesco, Pessa, Ismael, McElroy, Rebecca, Blanc, Guillermo A., Congiu, Enrico, Groves, Brent, Ho, I-Ting, Kreckel, Kathryn, Razza, Alessandro, Sanchez-Blazquez, Patricia, Egorov, Oleg, Faesi, Chris, Klessen, Ralf S., Leroy, Adam K., Meidt, Sharon, Querejeta, Miguel, Rosolowsky, Erik, Scheuermann, Fabian, Anand, Gagandeep S., Barnes, Ashley T., Bešlić, Ivana, Bigiel, Frank, Boquien, Médéric, Cao, Yixian, Chevance, Mélanie, Dale, Daniel A., Eibensteiner, Cosima, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Hughes, Annie, Koch, Eric W., Kruijssen, J. M. Diederik, Lee, Janice, Liu, Daizhong, Pan, Hsi-An, Pety, Jérôme, Saito, Toshiki, Sandstrom, Karin M., Schruba, Andreas, Sun, Jiayi, Thilker, David A., Usero, Antonio, Watkins, Elizabeth J., Williams, Thomas G., Emsellem, Eric, Schinnerer, Eva, Santoro, Francesco, Belfiore, Francesco, Pessa, Ismael, McElroy, Rebecca, Blanc, Guillermo A., Congiu, Enrico, Groves, Brent, Ho, I-Ting, Kreckel, Kathryn, Razza, Alessandro, Sanchez-Blazquez, Patricia, Egorov, Oleg, Faesi, Chris, Klessen, Ralf S., Leroy, Adam K., Meidt, Sharon, Querejeta, Miguel, Rosolowsky, Erik, Scheuermann, Fabian, Anand, Gagandeep S., Barnes, Ashley T., Bešlić, Ivana, Bigiel, Frank, Boquien, Médéric, Cao, Yixian, Chevance, Mélanie, Dale, Daniel A., Eibensteiner, Cosima, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Hughes, Annie, Koch, Eric W., Kruijssen, J. M. Diederik, Lee, Janice, Liu, Daizhong, Pan, Hsi-An, Pety, Jérôme, Saito, Toshiki, Sandstrom, Karin M., Schruba, Andreas, Sun, Jiayi, Thilker, David A., Usero, Antonio, Watkins, Elizabeth J., and Williams, Thomas G.

Abstract

We present the PHANGS-MUSE survey, a programme using the MUSE IFS at the ESO VLT to map 19 massive $(9.4 < \log(M_{*}/M_\odot) < 11.0)$ nearby (D < 20 Mpc) star-forming disc galaxies. The survey consists of 168 MUSE pointings (1'x1' each), a total of nearly 15 Million spectra, covering ~1.5 Million independent spectra. PHANGS-MUSE provides the first IFS view of star formation across different local environments (including galaxy centres, bars, spiral arms) in external galaxies at a median resolution of 50~pc, better than the mean inter-cloud distance in the ionised interstellar medium. This `cloud-scale' resolution allows detailed demographics and characterisations of HII regions and other ionised nebulae. PHANGS-MUSE further delivers a unique view on the associated gas and stellar kinematics, and provides constraints on the star formation history. The PHANGS-MUSE survey is complemented by dedicated ALMA CO(2-1) and multi-band HST observations, therefore allowing us to probe the key stages of the star formation process from molecular clouds to HII regions and star clusters. This paper describes the scientific motivation, sample selection, observational strategy, data reduction and analysis process of the PHANGS-MUSE survey. We present our bespoke automated data-reduction framework, which is built on the reduction recipes provided by ESO, but additionally allows for mosaicking and homogenisation of the point spread function. We further present a detailed quality assessment and a brief illustration of the potential scientific applications of the large set of PHANGS-MUSE data products generated by our data analysis framework. The data cubes and analysis data products described in this paper represent the basis for the first PHANGS-MUSE public data release and are available in the ESO archive and via the Canadian Astronomy Data Centre., Comment: 48 pages, 28 figures, 4 tables, accepted for pub in A&A, Dec 8, 2021. Data products released publicly at this address https://archive.eso.org/scienceportal/home?data_collection=PHANGS

Published

2021

33. Low-J CO Line Ratios From Single Dish CO Mapping Surveys and PHANGS-ALMA

Author

Leroy, Adam K., Rosolowsky, Erik, Usero, Antonio, Sandstrom, Karin, Schinnerer, Eva, Schruba, Andreas, Bolatto, Alberto D., Sun, Jiayi, Barnes, Ashley. T., Belfiore, Francesco, Bigiel, Frank, Brok, Jakob S. den, Cao, Yixian, Chiang, I-Da, Chevance, Mélanie, Dale, Daniel A., Eibensteiner, Cosima, Faesi, Christopher M., Glover, Simon C. O., Hughes, Annie, Donaire, Maria J. Jiménez, Klessen, Ralf S., Koch, Eric W., Kruijssen, J. M. Diederik, Liu, Daizhong, Meidt, Sharon E., Pan, Hsi-An, Pety, Jérôme, Puschnig, Johannes, Querejeta, Miguel, Saito, Toshiki, Sardone, Amy, Watkins, Elizabeth J., Weiss, Axel, Williams, Thomas G., Leroy, Adam K., Rosolowsky, Erik, Usero, Antonio, Sandstrom, Karin, Schinnerer, Eva, Schruba, Andreas, Bolatto, Alberto D., Sun, Jiayi, Barnes, Ashley. T., Belfiore, Francesco, Bigiel, Frank, Brok, Jakob S. den, Cao, Yixian, Chiang, I-Da, Chevance, Mélanie, Dale, Daniel A., Eibensteiner, Cosima, Faesi, Christopher M., Glover, Simon C. O., Hughes, Annie, Donaire, Maria J. Jiménez, Klessen, Ralf S., Koch, Eric W., Kruijssen, J. M. Diederik, Liu, Daizhong, Meidt, Sharon E., Pan, Hsi-An, Pety, Jérôme, Puschnig, Johannes, Querejeta, Miguel, Saito, Toshiki, Sardone, Amy, Watkins, Elizabeth J., Weiss, Axel, and Williams, Thomas G.

Abstract

We measure the low-J CO line ratio R21=CO(2-1)/CO(1-0), R32=CO(3-2)/CO(2-1), and R31 = CO(3-2)/CO(1-0) using whole-disk CO maps of nearby galaxies. We draw CO(2-1) from PHANGS--ALMA, HERACLES, and follow-up IRAM surveys; CO(1-0) from COMING and the Nobeyama CO Atlas of Nearby Spiral Galaxies; and CO(3-2) from the JCMT NGLS and APEX LASMA mapping. Altogether this yields 76, 47, and 29 maps of R21, R32, and R31 at 20" \sim 1.3 kpc resolution, covering 43, 34, and 20 galaxies. Disk galaxies with high stellar mass, log10 M_* [Msun]=10.25-11 and star formation rate, SFR=1-5 Msun/yr, dominate the sample. We find galaxy-integrated mean values and 16%-84% range of R21 = 0.65 (0.50-0.83), R32=0.50 (0.23-0.59), and R31=0.31 (0.20-0.42). We identify weak trends relating galaxy-integrated line ratios to properties expected to correlate with excitation, including SFR/M_* and SFR/L_CO. Within galaxies, we measure central enhancements with respect to the galaxy-averaged value of \sim 0.18^{+0.09}_{-0.14} dex for R21, 0.27^{+0.13}_{-0.15} dex for R31, and 0.08^{+0.11}_{-0.09} dex for R32. All three line ratios anti-correlate with galactocentric radius and positively correlate with the local star formation rate surface density and specific star formation rate, and we provide approximate fits to these relations. The observed ratios can be reasonably reproduced by models with low temperature, moderate opacity, and moderate densities, in good agreement with expectations for the cold ISM. Because the line ratios are expected to anti-correlate with the CO(1-0)-to-H_2 conversion factor, alphaCO^(1-0), these results have general implications for the interpretation of CO emission from galaxies., Comment: 34 pages; 12 figures; accepted for publication in the Astrophysical Journal; data tables available http://www.astronomy.ohio-state.edu/~leroy.42/int_corat_tab.ecsv and http://www.astronomy.ohio-state.edu/~leroy.42/co_model.ecsv before publication

Published

2021

34. On the Three-Dimensional Structure of Local Molecular Clouds

Author

Zucker, Catherine, Goodman, Alyssa, Alves, João, Bialy, Shmuel, Koch, Eric W., Speagle, Joshua S., Foley, Michael M., Finkbeiner, Douglas, Leike, Reimar, Enßlin, Torsten, Peek, Joshua E. G., Edenhofer, Gordian, Zucker, Catherine, Goodman, Alyssa, Alves, João, Bialy, Shmuel, Koch, Eric W., Speagle, Joshua S., Foley, Michael M., Finkbeiner, Douglas, Leike, Reimar, Enßlin, Torsten, Peek, Joshua E. G., and Edenhofer, Gordian

Abstract

We leverage the 1 pc spatial resolution of the Leike et al. 2020 3D dust map to characterize the three-dimensional structure of nearby molecular clouds ($d \lesssim 400$ pc). We start by "skeletonizing" the clouds in 3D volume density space to determine their "spines," which we project on the sky to constrain cloud distances with $\approx 1\%$ uncertainty. For each cloud, we determine an average radial volume density profile around its 3D spine and fit the profiles using Gaussian and Plummer functions. The radial volume density profiles are well-described by a two-component Gaussian function, consistent with clouds having broad, lower-density outer envelopes and narrow, higher-density inner layers. The ratio of the outer to inner envelope widths is $\approx 3:1$. We hypothesize that these two components may be tracing a transition between atomic and diffuse molecular gas or between the unstable and cold neutral medium. Plummer-like models can also provide a good fit, with molecular clouds exhibiting shallow power-law wings with density, $n$, falling off like $n^{-2}$ at large radii. Using Bayesian model selection, we find that parameterizing the clouds' profiles using a single Gaussian is disfavored. We compare our results with 2D dust extinction maps, finding that the 3D dust recovers the total cloud mass from integrated approaches with fidelity, deviating only at higher levels of extinction ($A_V \gtrsim 2 - 3$ mag). The 3D cloud structure described here will enable comparisons with synthetic clouds generated in simulations, offering unprecedented insight into the origins and fates of molecular clouds in the interstellar medium., Comment: Published in ApJ. For data behind the figures see https://dataverse.harvard.edu/dataverse/3D_cloud_structure . For interactive gallery of local clouds see https://faun.rc.fas.harvard.edu/czucker/Paper_Figures/3D_Cloud_Topologies/gallery.html . Companion paper to Bialy et al. 2021 (arXiv:2109.09763). For press see https://www.cfa.harvard.edu/news/gigantic-cavity-space-sheds-new-light-how-stars-form

Published

2021

35. Local Environments of Low-Redshift Supernovae

Author

Cronin, Serena A., Utomo, Dyas, Leroy, Adam K., Behrens, Erica A., Chastenet, Jeremy, Holland-Ashford, Tyler, Koch, Eric W., Lopez, Laura A., Sandstrom, Karin M., Williams, Thomas G., Cronin, Serena A., Utomo, Dyas, Leroy, Adam K., Behrens, Erica A., Chastenet, Jeremy, Holland-Ashford, Tyler, Koch, Eric W., Lopez, Laura A., Sandstrom, Karin M., and Williams, Thomas G.

Abstract

We characterize the local (2-kpc sized) environments of Type Ia, II, and Ib/c supernovae (SNe) that have recently occurred in nearby ($d\lesssim50$ Mpc) galaxies. Using ultraviolet (UV, from GALEX) and infrared (IR, from WISE) maps of 359 galaxies and a sample of 472 SNe, we measure the star formation rate surface density ($\Sigma_{\rm SFR}$) and stellar mass surface density ($\Sigma_\star$) in a 2-kpc beam centered on each SN site. We show that core-collapse SNe are preferentially located along the resolved galactic star-forming main sequence, whereas Type Ia SNe are extended to lower values of $\Sigma_{\rm SFR}$ at fixed $\Sigma_\star$, indicative of locations inside quiescent galaxies or quiescent regions of galaxies. We also test how well the radial distribution of each SN type matches the radial distributions of UV and IR light in each host galaxy. We find that, to first order, the distributions of all types of SNe mirror that of both near-IR light (3.4 and 4.5 microns, tracing the stellar mass distribution) and mid-IR light (12 and 22 microns, tracing emission from hot, small grains), and also resemble our best-estimate $\Sigma_{\rm SFR}$. All types of SNe appear more radially concentrated than the UV emission of their host galaxies. In more detail, the distributions of Type II SNe show small statistical differences from that of near-IR light. We attribute this overall structural uniformity to the fact that within any individual galaxy, $\Sigma_{\rm SFR}$ and $\Sigma_\star$ track one another well, with variations in $\Sigma_{\rm SFR}/\Sigma_\star$ most visible when comparing between galaxies.

Published

2021

36. PHANGS-ALMA: Arcsecond CO(2-1) Imaging of Nearby Star-Forming Galaxies

Author

Leroy, Adam K., Schinnerer, Eva, Hughes, Annie, Rosolowsky, Erik, Pety, Jérôme, Schruba, Andreas, Usero, Antonio, Blanc, Guillermo A., Chevance, Mélanie, Emsellem, Eric, Faesi, Christopher M., Herrera, Cinthya N., Liu, Daizhong, Meidt, Sharon E., Querejeta, Miguel, Saito, Toshiki, Sandstrom, Karin M., Sun, Jiayi, Williams, Thomas G., Anand, Gagandeep S., Barnes, Ashley T., Behrens, Erica A., Belfiore, Francesco, Benincasa, Samantha M., Bešlić, Ivana, Bigiel, Frank, Bolatto, Alberto D., Brok, Jakob S. den, Cao, Yixian, Chandar, Rupali, Chastenet, Jérémy, Chiang, I-Da, Congiu, Enrico, Dale, Daniel A., Deger, Sinan, Eibensteiner, Cosima, Egorov, Oleg V., García-Rodríguez, Axel, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Ho, I-Ting, Kepley, Amanda A., Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Koch, Eric W., Kruijssen, J. M. Diederik, Larson, Kirsten L., Lee, Janice C., Lopez, Laura A., Machado, Josh, Mayker, Ness, McElroy, Rebecca, Murphy, Eric J., Ostriker, Eve C., Pan, Hsi-An, Pessa, Ismael, Puschnig, Johannes, Razza, Alessandro, Sánchez-Blázquez, Patricia, Santoro, Francesco, Sardone, Amy, Scheuermann, Fabian, Sliwa, Kazimierz, Sormani, Mattia C., Stuber, Sophia K., Thilker, David A., Turner, Jordan A., Utomo, Dyas, Watkins, Elizabeth J., Whitmore, Bradley, Leroy, Adam K., Schinnerer, Eva, Hughes, Annie, Rosolowsky, Erik, Pety, Jérôme, Schruba, Andreas, Usero, Antonio, Blanc, Guillermo A., Chevance, Mélanie, Emsellem, Eric, Faesi, Christopher M., Herrera, Cinthya N., Liu, Daizhong, Meidt, Sharon E., Querejeta, Miguel, Saito, Toshiki, Sandstrom, Karin M., Sun, Jiayi, Williams, Thomas G., Anand, Gagandeep S., Barnes, Ashley T., Behrens, Erica A., Belfiore, Francesco, Benincasa, Samantha M., Bešlić, Ivana, Bigiel, Frank, Bolatto, Alberto D., Brok, Jakob S. den, Cao, Yixian, Chandar, Rupali, Chastenet, Jérémy, Chiang, I-Da, Congiu, Enrico, Dale, Daniel A., Deger, Sinan, Eibensteiner, Cosima, Egorov, Oleg V., García-Rodríguez, Axel, Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Ho, I-Ting, Kepley, Amanda A., Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Koch, Eric W., Kruijssen, J. M. Diederik, Larson, Kirsten L., Lee, Janice C., Lopez, Laura A., Machado, Josh, Mayker, Ness, McElroy, Rebecca, Murphy, Eric J., Ostriker, Eve C., Pan, Hsi-An, Pessa, Ismael, Puschnig, Johannes, Razza, Alessandro, Sánchez-Blázquez, Patricia, Santoro, Francesco, Sardone, Amy, Scheuermann, Fabian, Sliwa, Kazimierz, Sormani, Mattia C., Stuber, Sophia K., Thilker, David A., Turner, Jordan A., Utomo, Dyas, Watkins, Elizabeth J., and Whitmore, Bradley

Abstract

We present PHANGS-ALMA, the first survey to map CO J=2-1 line emission at ~1" ~ 100pc spatial resolution from a representative sample of 90 nearby (d<~20 Mpc) galaxies that lie on or near the z=0 "main sequence" of star-forming galaxies. CO line emission traces the bulk distribution of molecular gas, which is the cold, star-forming phase of the interstellar medium. At the resolution achieved by PHANGS-ALMA, each beam reaches the size of a typical individual giant molecular cloud (GMC), so that these data can be used to measure the demographics, life-cycle, and physical state of molecular clouds across the population of galaxies where the majority of stars form at z=0. This paper describes the scientific motivation and background for the survey, sample selection, global properties of the targets, ALMA observations, and characteristics of the delivered ALMA data and derived data products. As the ALMA sample serves as the parent sample for parallel surveys with VLT/MUSE, HST, AstroSat, VLA, and other facilities, we include a detailed discussion of the sample selection. We detail the estimation of galaxy mass, size, star formation rate, CO luminosity, and other properties, compare estimates using different systems and provide best-estimate integrated measurements for each target. We also report the design and execution of the ALMA observations, which combine a Cycle~5 Large Program, a series of smaller programs, and archival observations. Finally, we present the first 1" resolution atlas of CO emission from nearby galaxies and describe the properties and contents of the first PHANGS-ALMA public data release., Comment: 76 pages, 33 figures. Accepted for publication in the Astrophysical Journal Supplement series. Full resolution version and the image atlas to appear as a figure set in the published version can be found https://sites.google.com/view/phangs/publications . Data release coming soon to the ALMA archive and CADC temporarily available at http://phangs.org/data

Published

2021

37. A lack of constraints on the cold opaque HI mass: HI spectra in M31 and M33 prefer multi-component models over a single cold opaque component

Author

Koch, Eric W., Rosolowsky, Erik W., Leroy, Adam K., Chastenet, Jeremy, Chiang, I-Da, Dalcanton, Julianne, Kepley, Amanda A., Sandstrom, Karin M., Schruba, Andreas, Stanimirovic, Snezana, Utomo, Dyas, Williams, Thomas G., Koch, Eric W., Rosolowsky, Erik W., Leroy, Adam K., Chastenet, Jeremy, Chiang, I-Da, Dalcanton, Julianne, Kepley, Amanda A., Sandstrom, Karin M., Schruba, Andreas, Stanimirovic, Snezana, Utomo, Dyas, and Williams, Thomas G.

Abstract

Previous work has argued that atomic gas mass estimates of galaxies from 21 cm HI emission are systematically low due to a cold opaque atomic gas component. If true, this opaque component necessitates a ~35% correction factor relative to the mass from assuming optically-thin HI emission. These mass corrections are based on fitting HI spectra with a single opaque component model that produces a distinct "top-hat" shaped line profile. Here, we investigate this issue using deep, high spectral resolution HI VLA observations of M31 and M33 to test if these top-hat profiles are instead superpositions of multiple HI components along the line-of-sight. We fit both models and find that >80% of the spectra strongly prefer a multi-component Gaussian model while <2% prefer the single opacity-corrected component model. This strong preference for multiple components argues against previous findings of lines-of-sight dominated by only cold HI. Our findings are enabled by the improved spectral resolution (0.42 km/s), whereas coarser spectral resolution blends multiple components together. We also show that the inferred opaque atomic ISM mass strongly depends on the goodness-of-fit definition and is highly uncertain when the inferred spin temperature has a large uncertainty. Finally, we find that the relation of the HI surface density with the dust surface density and extinction has significantly more scatter when the inferred HI opacity correction is applied. These variations are difficult to explain without additionally requiring large variations in the dust properties. Based on these findings, we suggest that the opaque HI mass is best constrained by HI absorption studies., Comment: Accepted in MNRAS. 25 pg, 13 figures

Published

2021

38. PHANGS-ALMA Data Processing and Pipeline

Author

Leroy, Adam K., Hughes, Annie, Liu, Daizhong, Pety, Jerome, Rosolowsky, Erik, Saito, Toshiki, Schinnerer, Eva, Schruba, Andreas, Usero, Antonio, Faesi, Christopher M., Herrera, Cinthya N., Chevance, Melanie, Hygate, Alexander P. S., Kepley, Amanda A., Koch, Eric W., Querejeta, Miguel, Sliwa, Kazimierz, Will, David, Wilson, Christine D., Anand, Gagandeep S., Barnes, Ashley, Belfiore, Francesco, Beslic, Ivana, Bigiel, Frank, Blanc, Guillermo A., Bolatto, Alberto D., Boquien, Mederic, Cao, Yixian, Chandar, Rupali, Chastenet, Jeremy, Chiang, I-Da, Congiu, Enrico, Dale, Daniel A., Deger, Sinan, Brok, Jakob S. den, Eibensteiner, Cosima, Emsellem, Eric, Garcıa-Rodrıguez, Axel, Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Henshaw, Jonathan D., Donaire, Maria J. Jimenez, Kim, Jenny J., Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Larson, Kirsten L., Lee, Janice C., Mayker, Ness, McElroy, Rebecca, Meidt, Sharon E., Mok, Angus, Pan, Hsi-An, Puschnig, Johannes, Razza, Alessandro, Sanchez-Blazquez, Patricia, Sandstrom, Karin M., Santoro, Francesco, Sardone, Amy, Scheuermann, Fabian, Sun, Jiayi, Thilker, David A., Turner, Jordan A., Ubeda, Leonardo, Utomo, Dyas, Watkins, Elizabeth J., Williams, Thomas G., Leroy, Adam K., Hughes, Annie, Liu, Daizhong, Pety, Jerome, Rosolowsky, Erik, Saito, Toshiki, Schinnerer, Eva, Schruba, Andreas, Usero, Antonio, Faesi, Christopher M., Herrera, Cinthya N., Chevance, Melanie, Hygate, Alexander P. S., Kepley, Amanda A., Koch, Eric W., Querejeta, Miguel, Sliwa, Kazimierz, Will, David, Wilson, Christine D., Anand, Gagandeep S., Barnes, Ashley, Belfiore, Francesco, Beslic, Ivana, Bigiel, Frank, Blanc, Guillermo A., Bolatto, Alberto D., Boquien, Mederic, Cao, Yixian, Chandar, Rupali, Chastenet, Jeremy, Chiang, I-Da, Congiu, Enrico, Dale, Daniel A., Deger, Sinan, Brok, Jakob S. den, Eibensteiner, Cosima, Emsellem, Eric, Garcıa-Rodrıguez, Axel, Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Henshaw, Jonathan D., Donaire, Maria J. Jimenez, Kim, Jenny J., Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Larson, Kirsten L., Lee, Janice C., Mayker, Ness, McElroy, Rebecca, Meidt, Sharon E., Mok, Angus, Pan, Hsi-An, Puschnig, Johannes, Razza, Alessandro, Sanchez-Blazquez, Patricia, Sandstrom, Karin M., Santoro, Francesco, Sardone, Amy, Scheuermann, Fabian, Sun, Jiayi, Thilker, David A., Turner, Jordan A., Ubeda, Leonardo, Utomo, Dyas, Watkins, Elizabeth J., and Williams, Thomas G.

Abstract

We describe the processing of the PHANGS-ALMA survey and present the PHANGS-ALMA pipeline, a public software package that processes calibrated interferometric and total power data into science-ready data products. PHANGS-ALMA is a large, high-resolution survey of CO J=2-1 emission from nearby galaxies. The observations combine ALMA's main 12-m array, the 7-m array, and total power observations and use mosaics of dozens to hundreds of individual pointings. We describe the processing of the u-v data, imaging and deconvolution, linear mosaicking, combining interferometer and total power data, noise estimation, masking, data product creation, and quality assurance. Our pipeline has a general design and can also be applied to VLA and ALMA observations of other spectral lines and continuum emission. We highlight our recipe for deconvolution of complex spectral line observations, which combines multiscale clean, single scale clean, and automatic mask generation in a way that appears robust and effective. We also emphasize our two-track approach to masking and data product creation. We construct one set of "broadly masked" data products, which have high completeness but significant contamination by noise, and another set of "strictly masked" data products, which have high confidence but exclude faint, low signal-to-noise emission. Our quality assurance tests, supported by simulations, demonstrate that 12-m+7-m deconvolved data recover a total flux that is significantly closer to the total power flux than the 7-m deconvolved data alone. In the appendices, we measure the stability of the ALMA total power calibration in PHANGS--ALMA and test the performance of popular short-spacing correction algorithms., Comment: Accepted for publication in the Astrophysical Journal Supplement series. 65 pages, 33 figures. Software available at https://github.com/akleroy/phangs_imaging_scripts . For a full resolution version see https://sites.google.com/view/phangs/publications

Published

2021

39. Benchmarking Dust Emission Models in M101

Author

Chastenet, Jeremy, Sandstrom, Karin, Chiang, I-Da, Hensley, Brandon S., Draine, Bruce T., Gordon, Karl D., Koch, Eric W., Leroy, Adam K., Utomo, Dyas, Williams, Thomas G., Chastenet, Jeremy, Sandstrom, Karin, Chiang, I-Da, Hensley, Brandon S., Draine, Bruce T., Gordon, Karl D., Koch, Eric W., Leroy, Adam K., Utomo, Dyas, and Williams, Thomas G.

Abstract

We present a comparative study of four physical dust models and two single-temperature modified blackbody models by fitting them to the resolved WISE, Spitzer, and Herschel photometry of M101 (NGC 5457). Using identical data and a grid-based fitting technique, we compare the resulting dust and radiation field properties derived from the models. We find that the dust mass yielded by the different models can vary by up to factor of 3 (factor of 1.4 between physical models only), although the fits have similar quality. Despite differences in their definition of the carriers of the mid-IR aromatic features, all physical models show the same spatial variations for the abundance of that grain population. Using the well determined metallicity gradient in M101 and resolved gas maps, we calculate an approximate upper limit on the dust mass as a function of radius. All physical dust models are found to exceed this maximum estimate over some range of galactocentric radii. We show that renormalizing the models to match the same Milky Way high latitude cirrus spectrum and abundance constraints can reduce the dust mass differences between models and bring the total dust mass below the maximum estimate at all radii., Comment: Accepted for publication in ApJ -- 28 pp (12 figures) + appendices

Published

2021

40. The Panchromatic Hubble Andromeda Treasury: Triangulum Extended Region (PHATTER) I. Ultraviolet to Infrared Photometry of 22 Million Stars in M33

Author

Williams, Benjamin F., Durbin, Meredith J., Dalcanton, Julianne J., Lang, Dustin, Girardi, Leo, Smercina, Adam, Dolphin, Andrew, Weisz, Daniel R., Choi, Yumi, Bell, Eric F., Rosolowsky, Erik, Skillman, Evan, Koch, Eric W., Lindberg, Christine W., Hagen, Lea, Gordon, Karl D., Seth, Anil, Gilbert, Karoline, Guhathakurta, Puragra, Lauer, Tod, Bianchi, Luciana, Williams, Benjamin F., Durbin, Meredith J., Dalcanton, Julianne J., Lang, Dustin, Girardi, Leo, Smercina, Adam, Dolphin, Andrew, Weisz, Daniel R., Choi, Yumi, Bell, Eric F., Rosolowsky, Erik, Skillman, Evan, Koch, Eric W., Lindberg, Christine W., Hagen, Lea, Gordon, Karl D., Seth, Anil, Gilbert, Karoline, Guhathakurta, Puragra, Lauer, Tod, and Bianchi, Luciana

Abstract

We present panchromatic resolved stellar photometry for 22 million stars in the Local Group dwarf spiral Triangulum (M33), derived from Hubble Space Telescope (HST) observations with the Advanced Camera for Surveys (ACS) in the optical (F475W, F814W), and the Wide Field Camera 3 (WFC3) in the near ultraviolet (F275W, F336W) and near-infrared (F110W, F160W) bands. The large, contiguous survey area covers $\sim$14 square kpc and extends to 3.5 kpc (14 arcmin, or 1.5-2 scale lengths) from the center of M33. The PHATTER observing strategy and photometry technique closely mimic those of the Panchromatic Hubble Andromeda Treasury (PHAT), but with updated photometry techniques that take full advantage of all overlapping pointings (aligned to within $<$5-10 milliarcseconds) and improved treatment of spatially-varying point spread functions. The photometry reaches a completeness-limited depth of F475W$\sim$28.5 in the lowest surface density regions observed in M33 and F475W$\sim$26.5 in the most crowded regions found near the center of M33. We find the young populations trace several relatively tight arms, while the old populations show a clear, looser two-armed structure. We present extensive analysis of the data quality including artificial star tests to quantify completeness, photometric uncertainties, and flux biases. This stellar catalog is the largest ever produced for M33, and is publicly available for download by the community., Comment: 38 pages, 6 tables, 25 figures, accepted for publication in ApJS

Published

2021

41. Resolving the Dust-to-Metals Ratio and CO-to-H$_2$ Conversion Factor in the Nearby Universe

Author

Chiang, I-Da, Sandstrom, Karin M., Chastenet, Jérémy, Herrera, Cinthya N., Koch, Eric W., Kreckel, Kathryn, Leroy, Adam K., Pety, Jérôme, Schruba, Andreas, Utomo, Dyas, Williams, Thomas, Chiang, I-Da, Sandstrom, Karin M., Chastenet, Jérémy, Herrera, Cinthya N., Koch, Eric W., Kreckel, Kathryn, Leroy, Adam K., Pety, Jérôme, Schruba, Andreas, Utomo, Dyas, and Williams, Thomas

Abstract

We investigate the relationship between the dust-to-metals ratio (D/M) and the local interstellar medium environment at ~2 kpc resolution in five nearby galaxies: IC342, M31, M33, M101, and NGC628. A modified blackbody model with a broken power-law emissivity is used to model the dust emission from 100 to 500 um observed by Herschel. We utilize the metallicity gradient derived from auroral line measurements in HII regions whenever possible. Both archival and new CO rotational line and HI 21 cm maps are adopted to calculate gas surface density, including new wide field CO and HI maps for IC342 from IRAM and the VLA, respectively. We experiment with several prescriptions of CO-to-H$_2$ conversion factor, and compare the resulting D/M-metallicity and D/M-density correlations, both of which are expected to be non-negative from depletion studies. The D/M is sensitive to the choice of the conversion factor. The conversion factor prescriptions based on metallicity only yield too much molecular gas in the center of IC342 to obtain the expected correlations. Among the prescriptions tested, the one that yields the expected correlations depends on both metallicity and surface density. The 1-$\sigma$ range of the derived D/M spans 0.40-0.58. Compared to chemical evolution models, our measurements suggest that the dust growth time scale is much shorter than the dust destruction time scale. The measured D/M is consistent with D/M in galaxy-integrated studies derived from infrared dust emission. Meanwhile, the measured D/M is systematically higher than the D/M derived from absorption, which likely indicates a systematic offset between the two methods., Comment: 22 pages, 8 figures, 4 tables; accepted by ApJ

Published

2020

42. The turbulent gas structure in the centers of NGC253 and the Milky Way

Author

Krieger, Nico, Bolatto, Alberto D., Koch, Eric W., Leroy, Adam K., Rosolowsky, Erik, Walter, Fabian, Weiß, Axel, Eden, David J., Levy, Rebecca C., Meier, David S., Mills, Elisabeth A. C., Moore, Toby, Ott, Jürgen, Su, Yang, Veilleux, Sylvain, Krieger, Nico, Bolatto, Alberto D., Koch, Eric W., Leroy, Adam K., Rosolowsky, Erik, Walter, Fabian, Weiß, Axel, Eden, David J., Levy, Rebecca C., Meier, David S., Mills, Elisabeth A. C., Moore, Toby, Ott, Jürgen, Su, Yang, and Veilleux, Sylvain

Abstract

We compare molecular gas properties in the starbursting center of NGC253 and the Milky Way Galactic Center (GC) on scales of ~1-100 pc using dendograms and resolution-, area- and noise-matched datasets in CO (1-0) and CO (3-2). We find that the size-line width relations in NGC253 and the GC have similar slope, but NGC253 has larger line widths by factors of ~2-3. The $\sigma^2/R$ dependency on column density shows that, in the GC, on scales of 10-100 pc the kinematics of gas over $N>3\times10^{21}$ cm$^{-2}$ are compatible with gravitationally bound structures. In NGC253 this is only the case for column densities $N>3\times10^{22}$ cm$^{-2}$. The increased line widths in NGC253 originate in the lower column density gas. This high-velocity dispersion, not gravitationally self-bound gas is likely in transient structures created by the combination of high average densities and feedback in the starburst. The high densities turns the gas molecular throughout the volume of the starburst, and the injection of energy and momentum by feedback significantly increases the velocity dispersion at a given spatial scale over what is observed in the GC., Comment: 13 pages, 3 figures, 4 tables; accepted for publication in the Astrophysical Journal

Published

2020

43. Spatial Power Spectra of Dust across the Local Group: No Constraint on Disc Scale Height

Author

Koch, Eric W., Chiang, I-Da, Utomo, Dyas, Chastenet, Jérémy, Leroy, Adam K., Rosolowsky, Erik W., Sandstrom, Karin M., Koch, Eric W., Chiang, I-Da, Utomo, Dyas, Chastenet, Jérémy, Leroy, Adam K., Rosolowsky, Erik W., and Sandstrom, Karin M.

Abstract

We analyze the 1D spatial power spectra of dust surface density and mid to far-infrared emission at $24-500\,\mu$m in the LMC, SMC, M31, and M33. By forward-modelling the point-spread-function (PSF) on the power spectrum, we find that nearly all power spectra have a single power-law and point source component. A broken power-law model is only favoured for the LMC 24 $\mu$m MIPS power spectrum and is due to intense dust heating in 30 Doradus. We also test for local power spectrum variations by splitting the LMC and SMC maps into $820$ pc boxes. We find significant variations in the power-law index with no strong evidence for breaks. The lack of a ubiquitous break suggests that the spatial power spectrum does not constrain the disc scale height. This contradicts claims of a break where the turbulent motion changes from 3D to 2D. The power spectrum indices in the LMC, SMC, and M31 are similar ($2.0-2.5$). M33 has a flatter power spectrum ($1.3$), similar to more distant spiral galaxies with a centrally-concentrated H$_{2}$ distribution. We compare the power spectra of HI, CO, and dust in M31 and M33 and find that HI power spectra are consistently flatter than CO power spectra. These results cast doubt on the idea that the spatial power spectrum traces large scale turbulent motion in nearby galaxies. Instead, we find that the spatial power spectrum is influenced by (1) the PSF on scales below $\sim3$ times the FWHM, (2) bright compact regions (30 Doradus), and (3) the global morphology of the tracer (an exponential CO disc)., Comment: Accepted by MNRAS; 19 pgs, 10 figures. Supplementary figures of the power spectrum fits for each band can be viewed here: https://doi.org/10.7910/DVN/RYRXK7

Published

2019

44. TurbuStat: Turbulence Statistics in Python

Author

Koch, Eric W., Rosolowsky, Erik W., Boyden, Ryan D., Burkhart, Blakesley, Ginsburg, Adam, Loeppky, Jason L., Offner, Stella S. R., Koch, Eric W., Rosolowsky, Erik W., Boyden, Ryan D., Burkhart, Blakesley, Ginsburg, Adam, Loeppky, Jason L., and Offner, Stella S. R.

Abstract

We present TurbuStat (v1.0): a Python package for computing turbulence statistics in spectral-line data cubes. TurbuStat includes implementations of fourteen methods for recovering turbulent properties from observational data. Additional features of the software include: distance metrics for comparing two data sets; a segmented linear model for fitting lines with a break-point; a two-dimensional elliptical power-law model; multi-core fast-fourier-transform support; a suite for producing simulated observations of fractional Brownian Motion fields, including two-dimensional images and optically-thin HI data cubes; and functions for creating realistic world coordinate system information for synthetic observations. This paper summarizes the TurbuStat package and provides representative examples using several different methods. TurbuStat is an open-source package and we welcome community feedback and contributions., Comment: Accepted in AJ. 21 pages, 8 figures

Published

2019

45. Relationship between the Line Width of the Atomic and Molecular ISM in M33

Author

Koch, Eric W., Rosolowsky, Erik W., Schruba, Andreas, Leroy, Adam, Kepley, Amanda, Braine, Jonathan, Dalcanton, Julianne, Johnson, Megan C., Koch, Eric W., Rosolowsky, Erik W., Schruba, Andreas, Leroy, Adam, Kepley, Amanda, Braine, Jonathan, Dalcanton, Julianne, and Johnson, Megan C.

Abstract

We investigate how the spectral properties of atomic (HI) and molecular (H$_2$) gas, traced by CO(2-1), are related in M33 on $80$ pc scales. We find the HI and CO(2-1) velocity at peak intensity to be highly correlated, consistent with previous studies. By stacking spectra aligned to the velocity of HI peak intensity, we find that the CO line width ($\sigma_{\rm HWHM}=4.6\pm0.9$ km s$^{-1}$; $\sigma_{\rm HWHM}$ is the effective Gaussian width) is consistently smaller than the HI line width ($\sigma_{\rm HWHM}=6.6\pm0.1$ km s$^{-1}$), with a ratio of ${\sim}0.7$, in agreement with Druard et al. (2014). The ratio of the line widths remains less than unity when the data are smoothed to a coarser spatial resolution. In other nearby galaxies, this line width ratio is close to unity which has been used as evidence for a thick, diffuse molecular disk that is distinct from the thin molecular disk dominated by molecular clouds. The smaller line width ratio found here suggests that M33 has a marginal thick molecular disk. From modelling individual lines-of-sight, we recover a strong correlation between HI and CO line widths when only the HI located closest to the CO component is considered. The median line width ratio of the line-of-sight line widths is $0.56\pm0.01$. There is substantial scatter in the HI--CO(2-1) line width relation, larger than the uncertainties, that results from regional variations on $<500$ pc scales, and there is no significant trend in the line widths, or their ratios, with galactocentric radius. These regional line width variations may be a useful probe of changes in the local cloud environment or the evolutionary state of molecular clouds., Comment: Accepted for publication in MNRAS; 20 pages, 15 figures

Published

2019

46. TurbuStat: Turbulence Statistics in Python

Author

Koch, Eric W., Rosolowsky, Erik W., Boyden, Ryan D., Burkhart, Blakesley, Ginsburg, Adam, Loeppky, Jason L., Offner, Stella S. R., Koch, Eric W., Rosolowsky, Erik W., Boyden, Ryan D., Burkhart, Blakesley, Ginsburg, Adam, Loeppky, Jason L., and Offner, Stella S. R.

Abstract

We present TurbuStat (v1.0): a Python package for computing turbulence statistics in spectral-line data cubes. TurbuStat includes implementations of fourteen methods for recovering turbulent properties from observational data. Additional features of the software include: distance metrics for comparing two data sets; a segmented linear model for fitting lines with a break-point; a two-dimensional elliptical power-law model; multi-core fast-fourier-transform support; a suite for producing simulated observations of fractional Brownian Motion fields, including two-dimensional images and optically-thin HI data cubes; and functions for creating realistic world coordinate system information for synthetic observations. This paper summarizes the TurbuStat package and provides representative examples using several different methods. TurbuStat is an open-source package and we welcome community feedback and contributions., Comment: Accepted in AJ. 21 pages, 8 figures

Published

2019

47. Relationship between the Line Width of the Atomic and Molecular ISM in M33

Author

Koch, Eric W., Rosolowsky, Erik W., Schruba, Andreas, Leroy, Adam, Kepley, Amanda, Braine, Jonathan, Dalcanton, Julianne, Johnson, Megan C., Koch, Eric W., Rosolowsky, Erik W., Schruba, Andreas, Leroy, Adam, Kepley, Amanda, Braine, Jonathan, Dalcanton, Julianne, and Johnson, Megan C.

Abstract

We investigate how the spectral properties of atomic (HI) and molecular (H$_2$) gas, traced by CO(2-1), are related in M33 on $80$ pc scales. We find the HI and CO(2-1) velocity at peak intensity to be highly correlated, consistent with previous studies. By stacking spectra aligned to the velocity of HI peak intensity, we find that the CO line width ($\sigma_{\rm HWHM}=4.6\pm0.9$ km s$^{-1}$; $\sigma_{\rm HWHM}$ is the effective Gaussian width) is consistently smaller than the HI line width ($\sigma_{\rm HWHM}=6.6\pm0.1$ km s$^{-1}$), with a ratio of ${\sim}0.7$, in agreement with Druard et al. (2014). The ratio of the line widths remains less than unity when the data are smoothed to a coarser spatial resolution. In other nearby galaxies, this line width ratio is close to unity which has been used as evidence for a thick, diffuse molecular disk that is distinct from the thin molecular disk dominated by molecular clouds. The smaller line width ratio found here suggests that M33 has a marginal thick molecular disk. From modelling individual lines-of-sight, we recover a strong correlation between HI and CO line widths when only the HI located closest to the CO component is considered. The median line width ratio of the line-of-sight line widths is $0.56\pm0.01$. There is substantial scatter in the HI--CO(2-1) line width relation, larger than the uncertainties, that results from regional variations on $<500$ pc scales, and there is no significant trend in the line widths, or their ratios, with galactocentric radius. These regional line width variations may be a useful probe of changes in the local cloud environment or the evolutionary state of molecular clouds., Comment: Accepted for publication in MNRAS; 20 pages, 15 figures

Published

2019

48. Spatial Power Spectra of Dust across the Local Group: No Constraint on Disc Scale Height

Author

Koch, Eric W., Chiang, I-Da, Utomo, Dyas, Chastenet, Jérémy, Leroy, Adam K., Rosolowsky, Erik W., Sandstrom, Karin M., Koch, Eric W., Chiang, I-Da, Utomo, Dyas, Chastenet, Jérémy, Leroy, Adam K., Rosolowsky, Erik W., and Sandstrom, Karin M.

Abstract

We analyze the 1D spatial power spectra of dust surface density and mid to far-infrared emission at $24-500\,\mu$m in the LMC, SMC, M31, and M33. By forward-modelling the point-spread-function (PSF) on the power spectrum, we find that nearly all power spectra have a single power-law and point source component. A broken power-law model is only favoured for the LMC 24 $\mu$m MIPS power spectrum and is due to intense dust heating in 30 Doradus. We also test for local power spectrum variations by splitting the LMC and SMC maps into $820$ pc boxes. We find significant variations in the power-law index with no strong evidence for breaks. The lack of a ubiquitous break suggests that the spatial power spectrum does not constrain the disc scale height. This contradicts claims of a break where the turbulent motion changes from 3D to 2D. The power spectrum indices in the LMC, SMC, and M31 are similar ($2.0-2.5$). M33 has a flatter power spectrum ($1.3$), similar to more distant spiral galaxies with a centrally-concentrated H$_{2}$ distribution. We compare the power spectra of HI, CO, and dust in M31 and M33 and find that HI power spectra are consistently flatter than CO power spectra. These results cast doubt on the idea that the spatial power spectrum traces large scale turbulent motion in nearby galaxies. Instead, we find that the spatial power spectrum is influenced by (1) the PSF on scales below $\sim3$ times the FWHM, (2) bright compact regions (30 Doradus), and (3) the global morphology of the tracer (an exponential CO disc)., Comment: Accepted by MNRAS; 19 pgs, 10 figures. Supplementary figures of the power spectrum fits for each band can be viewed here: https://doi.org/10.7910/DVN/RYRXK7

Published

2019

49. Kinematics of the Atomic ISM in M33 on 80 pc scales

Author

Koch, Eric W., Rosolowsky, Erik W., Lockman, Felix J., Kepley, Amanda A., Leroy, Adam, Schruba, Andreas, Braine, Jonathan, Dalcanton, Julianne, Johnson, Megan C., Stanimirović, Snežana, Koch, Eric W., Rosolowsky, Erik W., Lockman, Felix J., Kepley, Amanda A., Leroy, Adam, Schruba, Andreas, Braine, Jonathan, Dalcanton, Julianne, Johnson, Megan C., and Stanimirović, Snežana

Abstract

We present new L-band ($1\mbox{--}2$ GHz) observations of the nearby spiral galaxy M33 with 80 pc resolution obtained with the Karl G. Jansky Very Large Array. The HI observations, combined with HI measurements from the Green Bank Telescope, improve the spectral resolution and sensitivity ($2.8$ K rms noise in a $0.2$ km s$^{-1}$ channel) compared to previous observations. We find individual profiles are usually non-Gaussian, harbouring line wings, multiple components, and asymmetries. Given this spectral complexity, we quantify the motions in the atomic ISM through moment analysis of the spectra and fits to aligned, stacked profiles. The measured value of the HI line width depends strongly on the method used, with the velocity stacked profiles aligned to the peak velocity giving the minimum value of $\sigma = 7$ km s$^{-1}$ and all other methods giving higher values ($\sigma\sim10$ km s$^{-1}$). All measurements of the line width show a shallow radial trend, with $\sigma$ decreasing by $\sim2$ km s$^{-1}$ from $R_{\rm gal}=0$ to $R_{\rm gal}=8$ kpc. We consider a number of energy sources that might maintain the line width against turbulent dissipation, but no single source is adequate. We find excess emission relative to a Gaussian in the stacked profile line wings, ranging from 9% to 26% depending on how the spectra are aligned. By splitting the line wings into symmetric and asymmetric components, we find that the lagging rotational disk accounts for one-third of the line wing flux. We also find emission far from the rotation axis of the galaxy in multiple discrete HI clouds, including a filament with a projected length of $\sim8$ kpc., Comment: MNRAS, in press. 30 pages, 24 figures

Published

2018

50. Assessing the Impact of Astrochemistry on Molecular Cloud Turbulence Statistics

Author

Boyden, Ryan D., Offner, Stella S. R., Koch, Eric W., Rosolowsky, Erik W., Boyden, Ryan D., Offner, Stella S. R., Koch, Eric W., and Rosolowsky, Erik W.

Abstract

We analyze hydrodynamic simulations of turbulent, star-forming molecular clouds that are post-processed with the photo-dissociation region astrochemistry code 3D-PDR. We investigate the sensitivity of 15 commonly applied turbulence statistics to post-processing assumptions, namely variations in gas temperature, abundance and external radiation field. We produce synthetic $^{12}$CO(1-0) and CI($^{3}$P$_{1}$-$^{3}$P$_{0}$) observations and examine how the variations influence the resulting emission distributions. To characterize differences between the datasets, we perform statistical measurements, identify diagnostics sensitive to our chemistry parameters, and quantify the statistic responses by using a variety of distance metrics. We find that multiple turbulent statistics are sensitive not only to the chemical complexity but also to the strength of the background radiation field. The statistics with meaningful responses include principal component analysis, spatial power spectrum and bicoherence. A few of the statistics, such as the velocity coordinate spectrum, are primarily sensitive to the type of tracer being utilized, while others, like the delta-variance, strongly respond to the background radiation field. Collectively, these findings indicate that more realistic chemistry impacts the responses of turbulent statistics and is necessary for accurate statistical comparisons between models and observed molecular clouds., Comment: 27 pages, 21 figures, accepted to ApJ

Published

2018