Your search keyword '"Meidt, Sharon E."' showing total 322 results

1. Evolution of the S\'ersic Index up to z=2.5 from JWST and HST

Author

Martorano, Marco, van der Wel, Arjen, Baes, Maarten, Bell, Eric F., Brammer, Gabriel, Franx, Marijn, Gebek, Andrea, Meidt, Sharon E., Miller, Tim B., Nelson, Erica, Nersesian, Angelos, Price, Sedona H., van Dokkum, Pieter, Whitaker, Katherine, and Wuyts, Stijn

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The James Webb Space Telescope (JWST) is unveiling the rest-frame near-IR structure of galaxies. We measure the evolution with redshift of the rest-frame optical and near-IR S\'ersic index ($n$), and examine the dependence on stellar mass and star-formation activity across the redshift range $0.5\leq z\leq2.5$. We infer rest-frame near-IR S\'ersic profiles for $\approx 15.000$ galaxies in publicly available NIRCam imaging mosaics from the COSMOS-Web and PRIMER surveys. We augment these with rest-frame optical S\'ersic indices, previously measured from HST imaging mosaics. The median S\'ersic index evolves slowly or not at all with redshift, except for very high-mass galaxies ($M_\star > 10^{11}~{\text{M}}_\odot$), which show an increase from $n\approx 2.5$ to $n\approx 4$ at $z<1$. High-mass galaxies have higher $n$ than lower-mass galaxies ($M_\star=10^{9.5}~{\text{M}}_\odot$) at all redshifts, with a stronger dependence in the rest-frame near-IR than in the rest-frame optical at $z>1$. This wavelength dependence is caused by star-forming galaxies that have lower optical than near-IR $n$ at z>1 (but not at z<1). Both at optical and near-IR wavelengths, star-forming galaxies have lower $n$ than quiescent galaxies, fortifying the connection between star-formation activity and radial stellar mass distribution. At $z>1$ the median near-IR $n$ varies strongly with star formation activity, but not with stellar mass. The scatter in near-IR $n$ is higher in the green valley (0.25 dex) than on the star-forming sequence and among quiescent galaxies (0.18 dex) -- this trend is not seen in the optical because dust and young stars contribute to the variety in optical light profiles. Our newly measured rest-frame near-IR radial light profiles motivate future comparisons with radial stellar mass profiles of simulated galaxies as a stringent constraint on processes that govern galaxy formation., Comment: Accepted for publication on A&A

Published

2025

2. Dynamical resonances in PHANGS galaxies

Author

Ruiz-García, Marina, Querejeta, Miguel, García-Burillo, Santiago, Emsellem, Eric, Meidt, Sharon E., Sormani, Mattia C., Schinnerer, Eva, Williams, Thomas G., Bazzi, Zein, Colombo, Dario, Gleis, Damian R., Gnedin, Oleg Y., Klessen, Ralf S., Leroy, Adam K., Sánchez-Blázquez, Patricia, and Stuber, Sophia K.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Bars are remarkable stellar structures that can transport gas toward centers and drive the secular evolution of galaxies. In this context, it is important to locate dynamical resonances associated with bars. For this study, we used ${Spitzer}$ near-infrared images as a proxy for the stellar gravitational potential and the ALMA CO(J=2-1) gas distribution from the PHANGS survey to determine the position of the main dynamical resonances associated with the bars in the PHANGS sample of 74 nearby star-forming galaxies. We used the gravitational torque method to estimate the location of the bar corotation radius ($R_{\rm CR}$), where stars and gas rotate at the same angular velocity as the bar. Of the 46 barred galaxies in PHANGS, we have successfully determined the corotation (CR) for 38 of them. The mean ratio of the $R_{\rm CR}$ to the bar radius ($R_{\rm bar}$) is $\mathcal{R} = R_{\rm CR}/R_{\rm bar} = 1.12$, with a standard deviation of $0.39$. This is consistent with the average value expected from theory and suggests that bars are predominantly fast. We also compared our results with other bar CR measurements from the literature, which employ different methods, and find good agreement ($\rho = 0.64$). Finally, using rotation curves, we have estimated other relevant resonances such as the inner Lindblad resonance (ILR) and the outer Lindblad resonance (OLR), which are often associated with rings. This work provides a useful catalog of resonances for a large sample of nearby galaxies and emphasizes the clear connection between bar dynamics and morphology.

Published

2024

3. Polycyclic Aromatic Hydrocarbon and CO(2-1) Emission at 50-150 pc Scales in 66 Nearby Galaxies

Author

Chown, Ryan, Leroy, Adam K., Sandstrom, Karin, Chastenet, Jeremy, Sutter, Jessica, Koch, Eric W., Koziol, Hannah B., Neumann, Lukas, Sun, Jiayi, Williams, Thomas G., Baron, Dalya, Anand, Gagandeep S., Barnes, Ashley T., Bazzi, Zein, Belfiore, Francesco, Bolatto, Alberto, Boquien, Mederic, Cao, Yixian, Chevance, Melanie, Colombo, Dario, Dale, Daniel A., Egorov, Oleg V., Eibensteiner, Cosima, Emsellem, Eric, Hassani, Hamid, Henshaw, Jonathan D., He, Hao, Kim, Jaeyeon, Kreckel, Kathryn, Meidt, Sharon E., Murphy, Eric J., Oakes, Elias K., Ostriker, Eve C., Pan, Hsi-An, Pathak, Debosmita, Rosolowsky, Erik, Sarbadhicary, Sumit K., Schinnerer, Eva, and Teng, Yu-Hsuan

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Combining Atacama Large Millimeter/sub-millimeter Array CO(2-1) mapping and JWST near- and mid-infrared imaging, we characterize the relationship between CO(2-1) and polycyclic aromatic hydrocarbon (PAH) emission at ~100 pc resolution in 66 nearby star-forming galaxies, expanding the sample size from previous ~100 pc resolution studies by more than an order of magnitude. Focusing on regions of galaxies where most of the gas is likely to be molecular, we find strong correlations between CO(2-1) and 3.3 micron, 7.7 micron, and 11.3 micron PAH emission, estimated from JWST's F335M, F770W, and F1130W filters. We derive power law relations between CO(2-1) and PAH emission, which have indices in the range 0.8-1.2, implying relatively weak variations in the observed CO-to-PAH ratios across the regions that we study. We find that CO-to-PAH ratios and scaling relationships near HII regions are similar to those in diffuse sight lines. The main difference between the two types of regions is that sight lines near HII regions show higher intensities in all tracers. Galaxy centers, on the other hand, show higher overall intensities and enhanced CO-to-PAH ratios compared to galaxy disks. Individual galaxies show 0.19 dex scatter in the normalization of CO at fixed I_PAH and this normalization anti-correlates with specific star formation rate (SFR/M*) and correlates with stellar mass. We provide a prescription that accounts for these galaxy-to-galaxy variations and represents our best current empirical predictor to estimate CO(2-1) intensity from PAH emission, which allows one to take advantage of JWST's excellent sensitivity and resolution to trace cold gas., Comment: 21 pages, 4 figures, 3 tables. Submitted to ApJ

Published

2024

4. JWST MIRI and NIRCam observations of NGC 891 and its circumgalactic medium

Author

Chastenet, Jérémy, De Looze, Ilse, Relaño, Monica, Dale, Daniel A., Williams, Thomas G., Bianchi, Simone, Xilouris, Emmanuel M., Baes, Maarten, Bolatto, Alberto D., Boyer, Martha L., Casasola, Viviana, Clark, Christopher J. R., Fraternali, Filippo, Fritz, Jacopo, Galliano, Frédéric, Glover, Simon C. O., Gordon, Karl D., Hirashita, Hiroyuki, Kennicutt, Robert, Nagamine, Kentaro, Kirchschlager, Florian, Klessen, Ralf S., Koch, Eric W., Levy, Rebecca C., McCallum, Lewis, Madden, Suzanne C., McLeod, Anna F., Meidt, Sharon E., Mosenkov, Aleksandr V., Richie, Helena M., Saintonge, Amélie, Sandstrom, Karin M., Schneider, Evan E., Sivkova, Evgenia E., Smith, J. D. T., Smith, Matthew W. L., van der Wel, Arjen, Walch, Stefanie, Walter, Fabian, and Wood, Kenneth

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present new JWST observations of the nearby, prototypical edge-on, spiral galaxy NGC 891. The northern half of the disk was observed with NIRCam in its F150W and F277W filters. Absorption is clearly visible in the mid-plane of the F150W image, along with vertical dusty plumes that closely resemble the ones seen in the optical. A $\sim 10 \times 3~{\rm kpc}^2$ area of the lower circumgalactic medium (CGM) was mapped with MIRI F770W at 12 pc scales. Thanks to the sensitivity and resolution of JWST, we detect dust emission out to $\sim 4$ kpc from the disk, in the form of filaments, arcs, and super-bubbles. Some of these filaments can be traced back to regions with recent star formation activity, suggesting that feedback-driven galactic winds play an important role in regulating baryonic cycling. The presence of dust at these altitudes raises questions about the transport mechanisms at play and suggests that small dust grains are able to survive for several tens of million years after having been ejected by galactic winds in the disk-halo interface. We lay out several scenarios that could explain this emission: dust grains may be shielded in the outer layers of cool dense clouds expelled from the galaxy disk, and/or the emission comes from the mixing layers around these cool clumps where material from the hot gas is able to cool down and mix with these cool cloudlets. This first set of data and upcoming spectroscopy will be very helpful to understand the survival of dust grains in energetic environments, and their contribution to recycling baryonic material in the mid-plane of galaxies., Comment: Accepted for publication in Astronomy & Astrophysics; 16 pages, 8 figures

Published

2024

5. Do spiral arms enhance star formation efficiency?

Author

Querejeta, Miguel, Leroy, Adam K., Meidt, Sharon E., Schinnerer, Eva, Belfiore, Francesco, Emsellem, Eric, Klessen, Ralf S., Sun, Jiayi, Sormani, Mattia, Bešlic, Ivana, Cao, Yixian, Chevance, Mélanie, Colombo, Dario, Dale, Daniel A., García-Burillo, Santiago, Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Koch, Eric. W., Neumann, Lukas, Pan, Hsi-An, Pessa, Ismael, Pety, Jérôme, Pinna, Francesca, Ramambason, Lise, Razza, Alessandro, Romanelli, Andrea, Rosolowsky, Erik, Ruiz-García, Marina, Sánchez-Blázquez, Patricia, Smith, Rowan, Stuber, Sophia, Ubeda, Leonardo, Usero, Antonio, and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Spiral arms are some of the most spectacular features in disc galaxies, and also present in our own Milky Way. It has been argued that star formation should proceed more efficiently in spiral arms as a result of gas compression. Yet, observational studies have so far yielded contradictory results. Here we examine arm/interarm surface density contrasts at ~100 pc resolution in 28 spiral galaxies from the PHANGS survey. We find that the arm/interarm contrast in stellar mass surface density (Sigma_*) is very modest, typically a few tens of percent. This is much smaller than the contrasts measured for molecular gas (Sigma_mol) or star formation rate (Sigma_SFR) surface density, which typically reach a factor of ~2-3. Yet, Sigma_mol and Sigma_SFR contrasts show a significant correlation with the enhancement in Sigma_*, suggesting that the small stellar contrast largely dictates the stronger accumulation of gas and star formation. All these contrasts increase for grand-design spirals compared to multi-armed and flocculent systems (and for galaxies with high stellar mass). The median star formation efficiency (SFE) of the molecular gas is 16% higher in spiral arms than in interarm regions, with a large scatter, and the contrast increases significantly (median SFE contrast 2.34) for regions of particularly enhanced stellar contrast (Sigma_* contrast >1.97). The molecular-to-atomic gas ratio (Sigma_mol/Sigma_atom) is higher in spiral arms, pointing to a transformation of atomic to molecular gas. In conclusion, the boost in the star formation efficiency of molecular gas in spiral arms is generally modest or absent, except for locations with exceptionally large stellar contrasts. (abridged), Comment: 26 pages, 16 figures. Accepted for publication in A&A

Published

2024

6. 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, Berger, Travis A., Anand, Gagandeep S., Barnes, Ashley T., Bigiel, Frank, Boquien, Médéric, Cao, Yixian, Chastenet, Jérémy, Chevance, Mélanie, Chown, Ryan, Dale, Daniel A., Deger, Sinan, 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.

Subjects

Astrophysics - Astrophysics of Galaxies

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 (DR1.1.0) 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: 49 pages (27 in Appendices), 54 Figures (39 in Appendices), 3 Tables. Accepted for publication in ApJS. Updated to match accepted version. Data available at https://archive.stsci.edu/hlsp/phangs/phangs-jwst

Published

2024

7. Bottom's Dream and the amplification of filamentary gas structures and stellar spiral arms

Author

Meidt, Sharon E. and van der Wel, Arjen

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Theories of spiral structure traditionally separate into tight-winding Lin-Shu spiral density waves and the swing-amplified material patterns of Goldreich & Lynden-Bell and Julian & Toomre. In this paper we consolidate these two types of spirals into a unified description, treating density waves beyond the tight-winding limit, in the regime of shearing and non-steady open spirals. This 'shearing wave' scenario novelly captures swing amplification that enables structure formation above conventional Q thresholds. However, it also highlights the fundamental role of spiral forcing on the amplification process in general, whether the wave is shearing or not. Thus it captures resonant and non-resonant mode growth through the donkey effect described by Lynden-Bell & Kalnajs and, critically, the cessation of growth when donkey behavior is no longer permitted. Our calculations predict growth exclusive to trailing spirals above the Jeans length, the prominence of spirals across a range of orientations that increases with decreasing arm multiplicity, and a critical orientation where growth is fastest that is the same for both modes and material patterns. Predicted structures are consistent with highly regular, high-multiplicity gaseous spur features and long filaments spaced close to the Jeans scale in spirals and bars. Applied to stellar disks, conditions favor low multiplicity (m<5) open trailing spirals with pitch angles in the observed range $10 deg$<$i_p$<$50 deg$. The results of this work serve as a basis for describing spirals as a unified class of transient waves, abundantly stimulated but narrowly selected for growth depending on local conditions., Comment: Accepted for publication in ApJ, 30 pages, 4 figures

Published

2023

8. TODDLERS: A new UV-mm emission library for star-forming regions. 1. Integration with SKIRT and public release

Author

Kapoor, Anand Utsav, Baes, Maarten, van der Wel, Arjen, Gebek, Andrea, Camps, Peter, Nersesian, Angelos, Meidt, Sharon E., Smith, Aaron, Vicens, Sebastien, D'Eugenio, Francesco, Martorano, Marco, Barrientos, Daniela, and Sartorio, Nina Sanches

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present and publicly release a new star-forming regions emission library TODDLERS (Time evolution of Observables including Dust Diagnostics and Line Emission from Regions containing young Stars) for the publicly available radiative transfer code SKIRT. The library generation involves the spherical evolution of a homogeneous gas cloud around a young stellar cluster that accounts for stellar feedback processes including stellar winds, supernovae, and radiation pressure, as well as the gravitational forces on the gas. The semi-analytical evolution model is coupled with the photoionization code Cloudy to calculate time-dependent UV-mm spectral energy distributions (SEDs) from star-forming regions of varying metallicity, star-formation efficiency, birth-cloud density, and mass. The calculated SEDs include the stellar, nebular, and dust continuum emission along with a wide range of emission lines originating from H ii, photo-dissociation, and molecular gas regimes tabulated at high resolution. The SEDs incorporated in SKIRT are generated by calculating a stellar-mass normalized luminosity, which assumes that each emission source is composed of a power-law population of star-forming clouds. When compared to the previous treatment of star-forming regions in SKIRT, TODDLERS shows a better agreement with low-redshift observational data in the IR wavelength range while offering a more comprehensive line-emission support. This paves the way for a variety of applications using simulated galaxies at low and high redshift., Comment: Accepted for publication in MNRAS on 27/09/23

Published

2023

9. Quantifying the energy balance between the turbulent ionised gas and young stars

Author

Egorov, Oleg V., Kreckel, Kathryn, Glover, Simon C. O., Groves, Brent, Belfiore, Francesco, Emsellem, Eric, Klessen, Ralf S., Leroy, Adam K., Meidt, Sharon E., Sarbadhicary, Sumit K., Schinnerer, Eva, Watkins, Elizabeth J., Whitmore, Brad C., Barnes, Ashley T., Congiu, Enrico, Dale, Daniel A., Grasha, Kathryn, Larson, Kirsten L., Lee, Janice C., Méndez-Delgado, J. Eduardo, Thilker, David A., and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We investigate the ionised gas morphology, excitation properties, and kinematics in 19 nearby star-forming galaxies from the PHANGS-MUSE survey. We directly compare the kinetic energy of expanding superbubbles and the turbulent motions in the interstellar medium with the mechanical energy deposited by massive stars in the form of winds and supernovae, with the aim to answer whether the stellar feedback is responsible for the observed turbulent motions and to quantify the fraction of mechanical energy retained in the superbubbles. Based on the distribution of the flux and velocity dispersion in the H$\alpha$ line, we select 1484 regions of locally elevated velocity dispersion ($\sigma$(H$\alpha$)>45 km/s), including at least 171 expanding superbubbles. We analyse these regions and relate their properties to those of the young stellar associations and star clusters identified in PHANGS-HST data. We find a good correlation between the kinetic energy of the ionised gas and the total mechanical energy input from supernovae and stellar winds from the stellar associations, with a typical coupling efficiency of 10-20%. The contribution of mechanical energy by the supernovae alone is not sufficient to explain the measured kinetic energy of the ionised gas, which implies that pre-supernova feedback in the form of radiation/thermal pressure and winds is necessary. We find that the gas kinetic energy decreases with metallicity for our sample covering Z=0.5-1.0 Zsun, reflecting the lower impact of stellar feedback. For the sample of superbubbles, we find that about 40% of the young stellar associations are preferentially located in their rims. We also find a slightly higher (by ~15%) fraction of the youngest (<3 Myr) stellar associations in the rims of the superbubbles than in the centres, and the opposite for older associations, which implies possible propagation or triggering of star formation., Comment: Accepted by A&A. The abstract is abridged. 31 pages (including 8 pages in appendix), 20 figures, 2 tables

Published

2023

10. Fuelling the nuclear ring of NGC 1097

Author

Sormani, Mattia C., Barnes, Ashley T., Sun, Jiayi, Stuber, Sophia K., Schinnerer, Eva, Emsellem, Eric, Leroy, Adam K., Glover, Simon C. O., Henshaw, Jonathan D., Meidt, Sharon E., Neumann, Justus, Querejeta, Miguel, Williams, Thomas G., Bigiel, Frank, Eibensteiner, Cosima, Fragkoudi, Francesca, Levy, Rebecca C., Grasha, Kathryn, Klessen, Ralf S., Kruijssen, J. M. Diederik, Neumayer, Nadine, Pinna, Francesca, Rosolowsky, Erik W., Smith, Rowan J., Teng, Yu-Hsuan, Tress, Robin G., and Watkins, Elizabeth J.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Galactic bars can drive cold gas inflows towards the centres of galaxies. The gas transport happens primarily through the so-called bar ``dust lanes'', which connect the galactic disc at kpc scales to the nuclear rings at hundreds of pc scales much like two gigantic galactic rivers. Once in the ring, the gas can fuel star formation activity, galactic outflows, and central supermassive black holes. Measuring the mass inflow rates is therefore important to understanding the mass/energy budget and evolution of galactic nuclei. In this work, we use CO datacubes from the PHANGS-ALMA survey and a simple geometrical method to measure the bar-driven mass inflow rate onto the nuclear ring of the barred galaxy NGC~1097. The method assumes that the gas velocity in the bar lanes is parallel to the lanes in the frame co-rotating with the bar, and allows one to derive the inflow rates from sufficiently sensitive and resolved position-position-velocity diagrams if the bar pattern speed and galaxy orientations are known. We find an inflow rate of $\dot{M}=(3.0 \pm 2.1)\, \rm M_\odot\, yr^{-1}$ averaged over a time span of 40 Myr, which varies by a factor of a few over timescales of $\sim$10 Myr. Most of the inflow appears to be consumed by star formation in the ring which is currently occurring at a rate of ${\rm SFR}\simeq~1.8$-$2 \rm M_\odot\, yr^{-1}$, suggesting that the inflow is causally controlling the star formation rate in the ring as a function of time., Comment: Accepted in MNRAS

Published

2023

11. PHANGS-JWST First Results: Variations in PAH Fraction as a Function of ISM Phase and Metallicity

Author

Chastenet, Jérémy, Sutter, Jessica, Sandstrom, Karin, Belfiore, Francesco, Egorov, Oleg V., Larson, Kirsten L., Leroy, Adam K., Liu, Daizhong, Rosolowsky, Erik, Thilker, David A., Watkins, Elizabeth J., Williams, Thomas G., Barnes, Ashley T., Bigiel, Frank, Boquien, Médéric, Chevance, Mélanie, Chiang, I-Da, Dale, Daniel A., Kruijssen, J. M. Diederik, Emsellem, Eric, Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Hughes, Annie, Kreckel, Kathryn, Meidt, Sharon E., Vaught, Ryan J. Rickards, Sardone, Amy, and Schinnerer, Eva

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present maps tracing the fraction of dust in the form of polycyclic aromatic hydrocarbons (PAHs) in IC 5332, NGC 628, NGC 1365, and NGC 7496 from JWST/MIRI observations. We trace the PAH fraction by combining the F770W ($7.7~\mu$m) and F1130W ($11.3~\mu$m) filters to track ionized and neutral PAH emission, respectively, and comparing the PAH emission to F2100W which traces small, hot dust grains. We find average $R{\rm_{PAH} = (F770W+F1130W)/F2100W}$ values of 3.3, 4.7, 5.1, and 3.6 in IC 5332, NGC 628, NGC 1365, and NGC 7496, respectively. We find that H II regions traced by MUSE H$\alpha$ show a systematically low PAH fraction. The PAH fraction remains relatively constant across other galactic environments, with slight variations. We use CO + H I + H$\alpha$ to trace the interstellar gas phase and find that the PAH fraction decreases above a value of I$_{H\alpha}/\Sigma_{H~I+H_2}$ $\sim~10^{37.5}$ erg s$^{-1}$ kpc$^{-2}$ (M$_\odot$ pc$^{-2}$)$^{-1}$, in all four galaxies. Radial profiles also show a decreasing PAH fraction with increasing radius, correlated with lower metallicity, in line with previous results showing a strong metallicity dependence to the PAH fraction. Our results suggest that the process of PAH destruction in ionized gas operates similarly across the four targets., Comment: 13 pages, 4 figures. Accepted as part of a PHANGS-JWST Focus Issue to appear in ApJ

Published

2023

12. PHANGS-JWST First Results: The Dust Filament Network of NGC 628 and its Relation to Star Formation Activity

Author

Thilker, David A., Lee, Janice C., Deger, Sinan, Barnes, Ashley T., Bigiel, Frank, Boquien, Médéric, Cao, Yixian, Chevance, Mélanie, Dale, Daniel A., Egorov, Oleg V., Glover, Simon C. O., Grasha, Kathryn, Henshaw, Jonathan D., Klessen, Ralf S., Koch, Eric, Kruijssen, J. M. Diederik, Leroy, Adam K., Lessing, Ryan A., Meidt, Sharon E., Pinna, Francesca, Querejeta, Miguel, Rosolowsky, Erik, Sandstrom, Karin M., Schinnerer, Eva, Smith, Rowan J., Watkins, Elizabeth J., Williams, Thomas G., Anand, Gagandeep S., Belfiore, Francesco, Blanc, Guillermo A., Chandar, Rupali, Congiu, Enrico, Emsellem, Eric, Groves, Brent, Kreckel, Kathryn, Larson, Kirsten L., Liu, Daizhong, Pessa, Ismael, and Whitmore, Bradley C.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

PHANGS-JWST mid-infrared (MIR) imaging of nearby spiral galaxies has revealed ubiquitous filaments of dust emission in intricate detail. We present a pilot study to systematically map the dust filament network (DFN) at multiple scales between 25-400 pc in NGC 628. MIRI images at 7.7, 10, 11.3 and 21$\mu$m of NGC 628 are used to generate maps of the filaments in emission, while PHANGS-HST B-band imaging yields maps of dust attenuation features. We quantify the correspondence between filaments traced by MIR thermal continuum / polycyclic aromatic hydrocarbon (PAH) emission and filaments detected via extinction / scattering of visible light; the fraction of MIR flux contained in the DFN; and the fraction of HII regions, young star clusters and associations within the DFN. We examine the dependence of these quantities with the physical scale at which the DFN is extracted. With our highest resolution DFN maps (25 pc filament width), we find that filaments in emission and attenuation are co-spatial in 40% of sight lines, often exhibiting detailed morphological agreement; that ~30% of the MIR flux is associated with the DFN; and that 75-80% of HII regions and 60% of star clusters younger than 5 Myr are contained within the DFN. However, the DFN at this scale is anti-correlated with looser associations of stars younger than 5 Myr identified using PHANGS-HST near-UV imaging. We discuss the impact of these findings for studies of star formation and the ISM, and the broad range of new investigations enabled with multi-scale maps of the DFN., Comment: 21 pages, 14 figures, accepted for publication as part of PHANGS-JWST ApJL Focus Issue

Published

2023

13. PHANGS-JWST First Results: Mapping the 3.3 micron Polycyclic Aromatic Hydrocarbon Vibrational Band in Nearby Galaxies with NIRCam Medium Bands

Author

Sandstrom, Karin, Chastenet, Jérémy, Sutter, Jessica, Leroy, Adam K., Egorov, Oleg V., Williams, Thomas G., Bolatto, Alberto D., Boquien, Médéric, Cao, Yixian, Dale, Daniel A., Lee, Janice C., Rosolowsky, Erik, Schinnerer, Eva, Barnes, Ashley. T., Belfiore, Francesco, Bigiel, F., Chevance, Mélanie, Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Hughes, Annie, Klessen, Ralf S., Kruijssen, J. M. Diederik, Larson, Kirsten L., Liu, Daizhong, Lopez, Laura A., Meidt, Sharon E., Murphy, Eric J., Sormani, Mattia C., Thilker, David A., and Watkins, Elizabeth J.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present maps of the 3.3 micron polycyclic aromatic hydrocarbon (PAH) emission feature in NGC 628, NGC 1365, and NGC 7496 as observed with the Near-Infrared Camera (NIRCam) imager on JWST from the PHANGS-JWST Cycle 1 Treasury project. We create maps that isolate the 3.3 micron PAH feature in the F335M filter (F335M$_{\rm PAH}$) using combinations of the F300M and F360M filters for removal of starlight continuum. This continuum removal is complicated by contamination of the F360M by PAH emission and variations in the stellar spectral energy distribution slopes between 3.0 and 3.6 micron. We modify the empirical prescription from Lai et al. (2020) to remove the starlight continuum in our highly resolved galaxies, which have a range of starlight- and PAH-dominated lines-of-sight. Analyzing radially binned profiles of the F335M$_{\rm PAH}$ emission, we find that between 5-65% of the F335M intensity comes from the 3.3 micron feature within the inner 0.5 $r_{25}$ of our targets. This percentage systematically varies from galaxy to galaxy, and shows radial trends within the galaxies related to each galaxy's distribution of stellar mass, interstellar medium, and star formation. The 3.3 micron emission is well correlated with the 11.3 micron PAH feature traced with the MIRI F1130W filter, as is expected, since both features arise from C-H vibrational modes. The average F335M$_{\rm PAH}$/F1130W ratio agrees with the predictions of recent models by Draine et al. (2021) for PAHs with size and charge distributions shifted towards larger grains with normal or higher ionization., Comment: submitted to AAS journals and revised according to referee comments, part of a PHANGS-JWST Focus Issue to appear in ApJ

Published

2023

14. PHANGS-JWST First Results: Massive Young Star Clusters and New Insights from JWST Observations of NGC 1365

Author

Whitmore, Bradley C., Chandar, Rupali, Rodríguez, M. Jimena, Lee, Janice C., Emsellem, Eric, Floyd, Matthew, Kim, Hwihyun, Kruijssen, J. M. Diederik, Mok, Angus, Sormani, Mattia C., Bodquien, Médéric, Dale, Daniel A., Faesi, Christopher M., Henny, Kiana F., Hannon, Stephen, Thilker, David A., White, Richad L., Barnes, Ashley T., Bigiel, F., Chevance, Mélanie, Henshaw, Jonathan D., Klessen, Ralf S., Leroy, Adam K., Liu, Daizhong, Maschmann, Daniel, Meidt, Sharon E., Rosolowsky, Erik, Schinnerer, Eva, Sun, Jiayi, Watkins, Elizabeth J., and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

A primary new capability of JWST is the ability to penetrate the dust in star forming galaxies to identify and study the properties of young star clusters that remain embedded in dust and gas. In this paper we combine new infrared images taken with JWST with our optical HST images of the star-bursting barred (Seyfert2) spiral galaxy NGC 1365. We find that this galaxy has the richest population of massive young clusters of any known galaxy within 30 Mpc, with $\sim$ 30 star clusters that are more massive than 10$^6$ Msolar and younger than 10 Myr. Sixteen of these clusters are newly discovered from our JWST observations. An examination of the optical images reveals that 4 of 30 ($\sim$13$\%$) are so deeply embedded that they cannot be seen in the I band (AV $\gt$ 10 mag), and that 11 of 30 ($\sim$37$\%$) are missing in the HST B band, so age and mass estimates from optical measurements alone are challenging. These numbers suggest that massive clusters in NGC 1365 remain obscured in the visible for $\sim$ 1.3 $\pm$ 0.7 Myr, and are either completely or partially obscured for $\sim$ 3.7 $\pm$ 1.1 Myr. We also use the JWST observations to gain new insights into the triggering of star cluster formation by the collision of gas and dust streamers with gas and dust in the bar. The JWST images reveal previously unknown structures (e.g., bridges and overshoot regions from stars that form in the bar) that help us better understand the orbital dynamics of barred galaxies and associated star-forming rings. Finally, we note that the excellent spatial resolution of the NIRCAM F200W filter provides a better way to separate barely resolved compact clusters from individual stars based on their sizes., Comment: 17 pages, 9 figures, accepted for publications as part of PHANGS-JWST ApJL Focus Issue

Published

2022

15. 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, and Watkins, Elizabeth J.

Subjects

Astrophysics - Astrophysics of Galaxies

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

16. 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., and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

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

17. PHANGS-JWST First Results: Measuring PAH Properties across the multiphase ISM

Author

Chastenet, Jérémy, Sutter, Jessica, Sandstrom, Karin, Belfiore, Francesco, Egorov, Oleg V., Larson, Kirsten L., Leroy, Adam K., Liu, Daizhong, Rosolowsky, Erik, Thilker, David A., Watkins, Elizabeth J., Williams, Thomas G., Barnes, Ashley T., Bigiel, Frank, Boquien, Médéric, Chevance, Mélanie, Dale, Daniel A., Kruijssen, J. M. Diederik, Emsellem, Eric, Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Hughes, Annie, Kreckel, Kathryn, Meidt, Sharon E., Pan, Hsi-An, Querejeta, Miguel, Schinnerer, Eva, and Whitcomb, Cory M.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Ratios of polycyclic aromatic hydrocarbon (PAH) vibrational bands are a promising tool for measuring the properties of the PAH population and their effect on star formation. The photometric bands of the MIRI and NIRCam instruments on JWST provide the opportunity to measure PAH emission features across entire galaxy disks at unprecedented resolution and sensitivity. Here we present the first results of this analysis in a sample of three nearby galaxies: NGC 628, NGC 1365, and NGC 7496. Based on the variations observed in the 3.3, 7.7, and 11.3 $\mu$m features, we infer changes to the average PAH size and ionization state across the different galaxy environments. High values of F335M$_{\rm PAH}$/F1130W and low values of F1130W/F770W are measured in H II regions in all three galaxies. This suggests that these regions are populated by hotter PAHs, and/or that the PAH ionization fraction is larger. We see additional evidence of heating and/or changes in PAH size in regions with higher molecular gas content as well as increased ionization in regions with higher H$\alpha$ intensity., Comment: 12 pages, 6 figures. Accepted as part of a PHANGS-JWST Focus Issue to appear in ApJ

Published

2022

18. 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., and Wilson, Christine D.

Subjects

Astrophysics - Astrophysics of Galaxies

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

19. PHANGS-JWST First Results: Rapid Evolution of Star Formation in the Central Molecular Gas Ring of NGC1365

Author

Schinnerer, Eva, Emsellem, Eric, Henshaw, Jonathan D., Liu, Daizhong, Meidt, Sharon E., Querejeta, Miguel, Renaud, Florent, Sormani, Mattia C., Sun, Jiayi, Egorov, Oleg V., Larson, Kirsten L., Leroy, Adam K., Rosolowsky, Erik, Sandstrom, Karin M., Williams, T. G., Barnes, Ashley T., Bigiel, F., Chevance, Melanie, Cao, Yixian, Chandar, Rupali, Dale, Daniel A., Eibensteiner, Cosima, Glover, Simon C. O., Grasha, Kathryn, Hannon, Stephen, Hassani, Hamid, Kim, Jaeyeon, Klessen, Ralf S., Kruijssen, J. M. Diederik, Murphy, Eric J., Neumann, Justus, Pan, Hsi-An, Pety, Jerome, Saito, Toshiki, Stuber, Sophia K., Tress, Robin G., Usero, Antonio, Watkins, Elizabeth J., and Whitmore, Bradley C.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Large-scale bars can fuel galaxy centers with molecular gas, often leading to the development of dense ring-like structures where intense star formation occurs, forming a very different environment compared to galactic disks. We pair ~0.3" (30pc) resolution new JWST/MIRI imaging with archival ALMA CO(2-1) mapping of the central ~5kpc of the nearby barred spiral galaxy NGC1365, to investigate the physical mechanisms responsible for this extreme star formation. The molecular gas morphology is resolved into two well-known bright bar lanes that surround a smooth dynamically cold gas disk (R_gal ~ 475pc) reminiscent of non-star-forming disks in early type galaxies and likely fed by gas inflow triggered by stellar feedback in the lanes. The lanes host a large number of JWST-identified massive young star clusters. We find some evidence for temporal star formation evolution along the ring. The complex kinematics in the gas lanes reveal strong streaming motions and may be consistent with convergence of gas streamlines expected there. Indeed, the extreme line-widths are found to be the result of inter-`cloud' motion between gas peaks; ScousePy decomposition reveals multiple components with line widths of ~ 19km/s and surface densities of ~ 800M_sun/pc^2, similar to the properties observed throughout the rest of the central molecular gas structure. Tailored hydro-dynamical simulations exhibit many of the observed properties and imply that the observed structures are transient and highly time-variable. From our study of NGC1365, we conclude that it is predominantly the high gas inflow triggered by the bar that is setting the star formation in its CMZ., Comment: 24 pages, 8 figures, accepted for publications as part of PHANGS-JWST ApJL Focus Issue

Published

2022

20. 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., and Thilker, David A.

Subjects

Astrophysics - Astrophysics of Galaxies

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

21. 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., and Razza, Alessandro

Subjects

Astrophysics - Astrophysics of Galaxies

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

22. PHANGS-JWST First Results: The 21 $\mu$m Compact Source Population

Author

Hassani, Hamid, Rosolowsky, Erik, Leroy, Adam K., Boquien, Mederic, Lee, Janice C., Barnes, Ashley. T., Belfiore, Francesco, Bigiel, Frank, Cao, Yixian, Chevance, Melanie, Dale, Daniel A., Egorov, Oleg V., Emsellem, Eric, Faesi, Christopher M., Grasha, Kathryn, Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Larson, Kirsten L., Meidt, Sharon E., Sandstrom, Karin M., Schinnerer, Eva, Thilker, David A., Watkins, Elizabeth J., Whitmore, Bradley C., and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We use PHANGS-JWST data to identify and classify 1271 compact 21 $\mu$m sources in four nearby galaxies using MIRI F2100W data. We identify sources using a dendrogram-based algorithm, and we measure the background-subtracted flux densities for JWST bands from 2 $\mu$m to 21 $\mu$m. Using the SED in JWST as well as HST bands, plus ALMA and MUSE/VLT observations, we classify the sources by eye. Then we use this classification to define regions in color-color space, and so establish a quantitative framework for classifying sources. We identify 1085 sources as belonging to the ISM of the target galaxies with the remainder being dusty stars or background galaxies. These 21 $\mu$m sources are strongly spatially associated with HII regions ($>92\%$ of sources), while 74$\%$ of sources are coincident with a stellar association defined in the HST data. Using SED fitting, we find that the stellar masses of the 21 $\mu$m sources span a range of 10$^{2}$ to 10$^{4}~M_\odot$ with mass-weighted ages down to 2 Myr. There is a tight correlation between attenuation-corrected H$\alpha$ and 21 $\mu$m luminosity for $L_{\nu,\mathrm{F2100W}}>10^{19}~\mathrm{W~Hz}^{-1}$. Young embedded source candidates selected at 21 $\mu$m are found below this threshold and have $M_\star < 10^{3}~M_\odot$., Comment: 15 pages, 5 figures, Accepted as part of a PHANGS-JWST Focus Issue to appear in ApJ

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., and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

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. 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, and Whitmore, Bradley C.

Subjects

Astrophysics - Astrophysics of Galaxies

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

25. PHANGS-JWST First Results: Spurring on Star Formation: JWST Reveals Localised Star Formation in a Spiral Arm Spur of NGC 628

Author

Williams, Thomas G., Sun, Jiayi, Barnes, Ashley T., Schinnerer, Eva, Henshaw, Jonathan D., Meidt, Sharon E., Querejeta, Miguel, Watkins, Elizabeth J., Bigiel, Frank, Blanc, Guillermo A., Boquien, Médéric, Cao, Yixian, Chevance, Mélanie, Egorov, Oleg V., Emsellem, Eric, Glover, Simon C. O., Grasha, Kathryn, Hassani, Hamid, Jeffreson, Sarah, Jiménez-Donaire, María J., Kim, Jaeyeon, Klessen, Ralf S., Kreckel, Kathryn, Kruijssen, J. M. Diederik, Larson, Kirsten L., Leroy, Adam K., Liu, Daizhong, Pessa, Ismael, Pety, Jérôme, Pinna, Francesca, Rosolowsky, Erik, Sandstrom, Karin M., Smith, Rowan, Sormani, Mattia C., Stuber, Sophia, Thilker, David A., and Whitmore, Bradley C.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We combine JWST observations with ALMA CO and VLT-MUSE H$\alpha$ data to examine off-spiral arm star formation in the face-on, grand-design spiral galaxy NGC 628. We focus on the northern spiral arm, around a galactocentric radius of 3-4 kpc, and study two spurs. These form an interesting contrast, as one is CO-rich and one CO-poor, and they have a maximum azimuthal offset in MIRI 21$\mu$m and MUSE H$\alpha$ of around 40$^\circ$ (CO-rich) and 55$^\circ$ (CO-poor) from the spiral arm. The star formation rate is higher in the regions of the spurs near to spiral arms, but the star formation efficiency appears relatively constant. Given the spiral pattern speed and rotation curve of this galaxy and assuming material exiting the arms undergoes purely circular motion, these offsets would be reached in 100-150 Myr, significantly longer than the 21$\mu$m and H$\alpha$ star formation timescales (both <10 Myr). The invariance of the star formation efficiency in the spurs versus the spiral arms indicates massive star formation is not only triggered in spiral arms, and cannot simply occur in the arms and then drift away from the wave pattern. These early JWST results show that in-situ star formation likely occurs in the spurs, and that the observed young stars are not simply the `leftovers' of stellar birth in the spiral arms. The excellent physical resolution and sensitivity that JWST can attain in nearby galaxies will well resolve individual star-forming regions and help us to better understand the earliest phases of star formation., Comment: 11 pages, 5 Figures, accepted as part of a PHANGS-JWST Focus Issue to appear in ApJ. Updated to include missing author and published paper references

Published

2022

26. PHANGS-JWST First Results: Duration of the early phase of massive star formation in NGC628

Author

Kim, Jaeyeon, Chevance, Mélanie, Kruijssen, J. M. Diederik, Barnes, Ashley. T., Bigiel, Frank, Blanc, Guillermo A., Boquien, Médéric, Cao, Yixian, Congiu, Enrico, Dale, Daniel A., Egorov, Oleg V., Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Hassani, Hamid, Hughes, Annie, Klessen, Ralf S., Kreckel, Kathryn, Larson, Kirsten L., Lee, Janice C., Leroy, Adam K., Liu, Daizhong, Longmore, Steven N., Meidt, Sharon E., Pan, Hsi-An, Pety, Jérôme, Querejeta, Miguel, Rosolowsky, Erik, Saito, Toshiki, Sandstrom, Karin, Schinnerer, Eva, Smith, Rowan J., Usero, Antonio, Watkins, Elizabeth J., and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The earliest stages of star formation, when young stars are still deeply embedded in their natal clouds, represent a critical phase in the matter cycle between gas clouds and young stellar regions. Until now, the high-resolution infrared observations required for characterizing this heavily obscured phase (during which massive stars have formed, but optical emission is not detected) could only be obtained for a handful of the most nearby galaxies. One of the main hurdles has been the limited angular resolution of the Spitzer Space Telescope. With the revolutionary capabilities of the JWST, it is now possible to investigate the matter cycle during the earliest phases of star formation as a function of the galactic environment. In this Letter, we demonstrate this by measuring the duration of the embedded phase of star formation and the implied time over which molecular clouds remain inert in the galaxy NGC628 at a distance of 9.8Mpc, demonstrating that the cosmic volume where this measurement can be made has increased by a factor of $>100$ compared to Spitzer. We show that young massive stars remain embedded for $5.1_{-1.4}^{+2.7}$Myr ($2.3_{-1.4}^{+2.7}$Myr of which being heavily obscured), representing $\sim20\%$ of the total cloud lifetime. These values are in broad agreement with previous measurements in five nearby ($D < 3.5$Mpc) galaxies and constitute a proof of concept for the systematic characterization of the early phase of star formation across the nearby galaxy population with the PHANGS-JWST survey., Comment: 15 pages, 4 figures, 2 tables; accepted for publication in ApJL as part of a PHANGS-JWST First Results Focus issue

Published

2022

27. Molecular Clouds as Gravitational Instabilities in Rotating Disks: A Modified Stability Criterion

Author

Meidt, Sharon E.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Molecular gas disks are generally Toomre stable ($Q_T>$1) and yet clearly gravitationally unstable to structure formation as evidenced by the existence of molecular clouds and ongoing star formation. This paper adopts a 3D perspective to obtain a general picture of instabilities in flattened rotating disks, using the 3D dispersion relation to describe how disks evolve when perturbed over their vertical extents. By explicitly adding a vertical perturbation to an unperturbed equilibrium disk, stability is shown to vary with height above the mid-plane. Near to $z$=0 where the equilibrium density is roughly constant, instability takes on a Jeans-like quality, occurring on scales larger than the Jeans length and subject to a threshold $Q_M=\kappa^2/(4\pi G\rho)=1$ or roughly $Q_T\approx 2$. Far from the mid-plane, on the other hand, stability is pervasive, and the threshold for the total disk (out to $z=\pm\infty$) to be stabilized is lowered to $Q_T=1$ as a consequence. In this new framework, gas disks are able to fragment through partial 3D instability even where total 2D instability is suppressed. The growth rates of the fragments formed via 3D instability are comparable to, or faster than, Toomre instabilities. The rich structure in molecular disks on the scale of 10s of pc can thus be viewed as a natural consequence of their 3D nature and their exposure to a variety of vertical perturbations acting on roughly a disk scale height, i.e. due to their situation within the more extended galaxy potential, participation in the disk-halo flow, and exposure to star formation feedback., Comment: Accepted for publication in ApJ, 23 pages, 3 figures

Published

2022

28. LEGA-C: analysis of dynamical masses from ionized gas and stellar kinematics at z~0.8

Author

Straatman, Caroline M. S., van der Wel, Arjen, van Houdt, Josha, Bezanson, Rachel, Bell, Eric F., van Dokkum, Pieter, D'Eugenio, Francesco, Franx, Marijn, Gallazzi, Anna, de Graaff, Anna, Maseda, Michael, Meidt, Sharon E., Muzzin, Adam, Sobral, David, and Wu, Po-Feng

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We compare dynamical mass estimates based on spatially extended stellar and ionized gas kinematics ($\mathrm{M_{dyn,*}}$ and $\mathrm{M_{dyn,eml}}$, respectively) of 157 star forming galaxies at $0.6\leq z<1$. Compared to $z\sim0$, these galaxies have enhanced star formation rates, with stellar feedback likely affecting the dynamics of the gas. We use LEGA-C DR3, the highest redshift dataset providing sufficiently deep measurements of a $K_s-$band limited sample. For $\mathrm{M_{dyn,*}}$ we use Jeans Anisotropic Multi-Gaussian Expansion models. For $\mathrm{M_{dyn,eml}}$ we first fit a custom model of a rotating exponential disk with uniform dispersion, whose light is projected through a slit and corrected for beam smearing. We then apply an asymmetric drift correction based on assumptions common in the literature to the fitted kinematic components to obtain the circular velocity, assuming hydrostatic equilibrium. Within the half-light radius, $\mathrm{M_{dyn,eml}}$ is on average lower than $\mathrm{M_{dyn,*}}$, with a mean offset of $-0.15\pm0.016$ dex and galaxy-to-galaxy scatter of $0.19$ dex, reflecting the combined random uncertainty. While data of higher spatial resolution are needed to understand this small offset, it supports the assumption that the galaxy-wide ionized gas kinematics do not predominantly originate from disruptive events such as star formation driven outflows. However, a similar agreement can be obtained without modeling from the integrated emission line dispersions for axis ratios $q<0.8$. This suggests that our current understanding of gas kinematics is not sufficient to efficiently apply asymmetric drift corrections to improve dynamical mass estimates compared to observations lacking the $S/N$ required for spatially extended dynamics., Comment: 19 pages, 7 figures, accepted for publication by ApJ, in press

Published

2022

29. A CO isotopologue Line Atlas within the Whirlpool galaxy Survey (CLAWS)

Author

Brok, Jakob S. den, Bigiel, Frank, Sliwa, Kazimierz, Saito, Toshiki, Usero, Antonio, Schinnerer, Eva, Leroy, Adam K., Jiménez-Donaire, María J., Rosolowsky, Erik, Barnes, Ashley T., Puschnig, Johannes, Pety, Jérôme, Schruba, Andreas, Bešlić, Ivana, Cao, Yixian, Eibensteiner, Cosima, Glover, Simon C. O., Klessen, Ralf S., Kruijssen, J. M. Diederik, Meidt, Sharon E., Neumann, Lukas, Tomičić, Neven, Pan, Hsi-An, Querejeta, Miguel, Watkins, Elizabeth, Williams, Thomas G., and Wilner, David

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present the CO isotopologue Line Atlas within the Whirpool galaxy Survey (CLAWS) based on an IRAM 30-m large programme which provides a benchmark study of numerous, faint CO isotopologues in the mm-wavelength regime across the full disc of M51 (NGC 5194). The survey's core goal is to use the low-J CO isotopologue lines to constrain CO excitation and chemistry, and therefrom the local physical conditions of the gas. In this survey paper, we describe the CLAWS observing and data reduction strategies. We map the J=1-0 and 2-1 transitions of the CO isotopologues $^{12}$CO,$^{13}$CO, C$^{18}$O and C$^{17}$O, as well as several supplementary lines within the 1 mm and 3 mm window (CN(1-0), CS(2-1), CH$_3$OH(2-1), N$_2$H$^+$(1-0), HC$_3$N(10-9)) at ~1 kpc resolution. A total observation time of 149 h offers unprecedented sensitivity. We use these data to explore several CO isotopologue line ratios in detail, study their radial (and azimuthal) trends and investigate whether changes in line ratios stem from changes in ISM properties such as gas temperatures, densities or chemical abundances. For example, we find negative radial trends for the $^{13}$CO}/$^{12}$CO, C$^{18}$O/$^{12}$CO and C$^{18}$O/$^{13}$CO line ratios in their J=1-0 transitions. We also find variations with local environment, such as higher $^{12}$CO(2-1)/(1-0) or $^{13}$CO/$^{12}$CO(1-0) line ratios in interarm regions compared to spiral arm regions. We propose that these aforementioned variations of CO line ratios are most likely due to a variation of the optical depth, while abundance variations due to selective nucleosynthesis on a galaxy-wide scale could also play a role. We also study the CO spectral line energy distribution (SLED) using archival JCMT $^{12}$CO(3-2) data and find a variation of the SLED shape with local environmental parameters further underlying changes in optical depth, gas temperatures or densities., Comment: 29 pages, 22 figures, accepted for publication in A&A

Published

2022

30. The Gas-Star Formation Cycle in Nearby Star-forming Galaxies II. Resolved Distributions of CO and H$\alpha$ Emission for 49 PHANGS Galaxies

Author

Pan, Hsi-An, Schinnerer, Eva, Hughes, Annie, Leroy, Adam, Groves, Brent, Barnes, Ashley Thomas, Belfiore, Francesco, Bigiel, Frank, Blanc, Guillermo A., Cao, Yixian, Chevance, Melanie, Congiu, Enrico, Dale, Daniel A., Eibensteiner, Cosima, Emsellem, Eric, Faesi, Christopher M., Glover, Simon C. O., Grasha, Kathryn, Herrera, Cinthya N., Ho, I-Ting, Klessen, Ralf S., Kruijssen, J. M. Diederik, Lang, Philipp, Liu, Daizhong, McElroy, Rebecca, Meidt, Sharon E., Murphy, Eric J., Pety, Jerome, Querejeta, Miguel, Razza, Alessandro, Rosolowsky, Erik, Saito, Toshiki, Santoro, Francesco, Schruba, Andreas, Sun, Jiayi, Tomicic, Neven, Usero, Antonio, Utomo, Dyas, and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The relative distribution of molecular gas and star formation in galaxies gives insight into the physical processes and timescales of the cycle between gas and stars. In this work, we track the relative spatial configuration of CO and H$\alpha$ emission at high resolution in each of our galaxy targets, and use these measurements to quantify the distributions of regions in different evolutionary stages of star formation: from molecular gas without star formation traced by H$\alpha$ to star-forming gas, and to HII regions. The large sample, drawn from the Physics at High Angular resolution in Nearby GalaxieS ALMA and narrowband H$\alpha$ (PHANGS-ALMA and PHANGS-H$\alpha$) surveys, spans a wide range of stellar mass and morphological types, allowing us to investigate the dependencies of the gas-star formation cycle on global galaxy properties. At a resolution of 150 pc, the incidence of regions in different stages shows a dependence on stellar mass and Hubble type of galaxies over the radial range probed. Massive and/or earlier-type galaxies exhibit a significant reservoir of molecular gas without star formation traced by H$\alpha$, while lower-mass galaxies harbor substantial HII regions that may have dispersed their birth clouds or formed from low-mass, more isolated clouds. Galactic structures add a further layer of complexity to relative distribution of CO and H$\alpha$ emission. Trends between galaxy properties and distributions of gas traced by CO and H$\alpha$ are visible only when the observed spatial scale is $\ll$ 500 pc, reflecting the critical resolution requirement to distinguish stages of star formation process., Comment: 60 pages, 22 figures, 9 tables, accepted for publication in The Astrophysical Journal

Published

2022

31. 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, and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

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

32. 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., and Whitmore, Bradley

Subjects

Astrophysics - Astrophysics of Galaxies

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

33. 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., and Williams, Thomas G.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Astrophysics of Galaxies

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

34. The organization of cloud-scale gas density structure: high resolution CO vs. 3.6 $\mu$m brightness contrasts in nearby galaxies

Author

Meidt, Sharon E., Leroy, Adam K., Querejeta, Miguel, Schinnerer, Eva, Sun, Jiayi, van der Wel, Arjen, Emsellem, Eric, Henshaw, Jonathan, Hughes, Annie, Kruijssen, J. M. Diederik, Rosolowsky, Erik, Schruba, Andreas, Barnes, Ashley, Bigiel, Frank, Blanc, Guillermo A., Chevance, Melanie, Cao, Yixian, Dale, Daniel A., Faesi, Christopher, Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Herrera, Cinthya, Klessen, Ralf S., Kreckel, Kathryn, Liu, Daizhong, Pan, Hsi-An, Pety, Jerome, Saito, Toshiki, Usero, Antonio, Watkins, Elizabeth, and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

In this paper we examine the factors that shape the distribution of molecular gas surface densities on the 150 pc scale across 67 morphologically diverse star-forming galaxies in the PHANGS-ALMA CO (2-1) survey. Dividing each galaxy into radial bins, we measure molecular gas surface density contrasts, defined here as the ratio between a fixed high percentile of the CO distribution and a fixed reference level in each bin. This reference level captures the level of the faint CO floor that extends between bright filamentary features, while the intensity level of the higher percentile probes the structures visually associated with bright, dense ISM features like spiral arms, bars, and filaments. We compare these contrasts to matched percentile-based measurements of the 3.6 $\mu$m emission measured using Spitzer/IRAC imaging, which trace the underlying stellar mass density. We find that the logarithms of CO contrasts on 150 pc scales are 3-4 times larger than, and positively correlated with, the logarithms of 3.6 $\mu$m contrasts probing smooth non-axisymmetric stellar bar and spiral structures. The correlation appears steeper than linear, consistent with the compression of gas as it flows supersonically in response to large-scale stellar structures, even in the presence of weak or flocculent spiral arms. Stellar dynamical features appear to play an important role in setting the cloud-scale gas density in our galaxies, with gas self-gravity perhaps playing a weaker role in setting the 150 pc-scale distribution of gas densities., Comment: Accepted for publication in ApJ, 16 pages, 7 figures

Published

2021

35. The PHANGS-HST Survey: Physics at High Angular resolution in Nearby GalaxieS with the Hubble Space Telescope

Author

Lee, Janice C., Whitmore, Bradley C., Thilker, David A., Deger, Sinan, Larson, Kirsten L., Ubeda, Leonardo, Anand, Gagandeep S., Boquien, Mederic, Chandar, Rupali, Dale, Daniel A., Emsellem, Eric, Leroy, Adam K., Rosolowsky, Erik, Schinnerer, Eva, Schmidt, Judy, Turner, Jordan, Van Dyk, Schuyler, White, Richard L., Barnes, Ashley T., Belfiore, Francesco, Bigiel, Frank, Blanc, Guillermo A., Cao, Yixian, Chevance, Melanie, Congiu, Enrico, Egorov, Oleg V., Glover, Simon C. O., Grasha, Kathryn, Groves, Brent, Henshaw, Jonathan, Hughes, Annie, Klessen, Ralf S., Koch, Eric, Kreckel, Kathryn, Kruijssen, J. M. Diederik, Liu, Daizhong, Lopez, Laura A., Mayker, Ness, Meidt, Sharon E., Murphy, Eric J., Pan, Hsi-An, Pety, Jerome, Querejeta, Miguel, Razza, Alessandro, Saito, Toshiki, Sanchez-Blazquez, Patricia, Santoro, Francesco, Sardone, Amy, Scheuermann, Fabian, Schruba, Andreas, Sun, Jiayi, Usero, Antonio, Watkins, Elizabeth, and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The PHANGS program is building the first dataset to enable the multi-phase, multi-scale study of star formation across the nearby spiral galaxy population. This effort is enabled by large survey programs with ALMA, VLT/MUSE, and HST, with which we have obtained CO(2-1) imaging, optical spectroscopic mapping, and high resolution UV-optical imaging, respectively. Here, we present PHANGS-HST, which has obtained five band NUV-U-B-V-I imaging of the disks of 38 spiral galaxies at distances of 4-23 Mpc, and parallel V and I band imaging of their halos, to provide a census of tens of thousands of compact star clusters, and multi-scale stellar associations. The combination of HST, ALMA, and VLT/MUSE observations will yield an unprecedented joint catalog of the observed and physical properties of ~100,000 star clusters, associations, HII regions, and molecular clouds. With these basic units of star formation, PHANGS will systematically chart the evolutionary cycling between gas and stars, across a diversity of galactic environments found in nearby galaxies. We discuss the design of the PHANGS-HST survey, and provide an overview of the HST data processing pipeline and first results, highlighting new methods for selecting star cluster candidates, morphological classification of candidates with convolutional neural networks, and identification of stellar associations over a range of physical scales with a watershed algorithm. We describe the cross-observatory imaging, catalogs, and software products to be released. These high-level science products will seed a broad range of investigations, in particular, the study of embedded stellar populations and dust with JWST, for which a PHANGS Cycle 1 Treasury program to obtain eight band 2-21 $\mu$m imaging has been approved., Comment: ApJS in press. Accepted draft includes moderate revision and updates to the originally posted submitted version. 27 pages, 11 figures, 1 table. Data products released at https://archive.stsci.edu/hlsp/phangs-hst/

Published

2021

36. Pre-supernova feedback mechanisms drive the destruction of molecular clouds in nearby star-forming disc galaxies

Author

Chevance, Mélanie, Kruijssen, J. M. Diederik, Krumholz, Mark R., Groves, Brent, Keller, Benjamin W., Hughes, Annie, Glover, Simon C. O., Henshaw, Jonathan D., Herrera, Cinthya N., Kim, Jenny J., Leroy, Adam K., Pety, Jérôme, Razza, Alessandro, Rosolowsky, Erik, Schinnerer, Eva, Schruba, Andreas, Barnes, Ashley T., Bigiel, Frank, Blanc, Guillermo A., Emsellem, Eric, Faesi, Christopher M., Grasha, Kathryn, Klessen, Ralf S., Kreckel, Kathryn, Liu, Daizhong, Longmore, Steven N., Meidt, Sharon E., Querejeta, Miguel, Saito, Toshiki, Sun, Jiayi, and Usero, Antonio

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

It is a major open question which physical processes stop the accretion of gas onto giant molecular clouds (GMCs) and limit the efficiency at which gas is converted into stars within these GMCs. While feedback from supernova explosions has been the popular feedback mechanism included in simulations of galaxy formation and evolution, `early' feedback mechanisms such as stellar winds, photoionisation and radiation pressure are expected to play an important role in dispersing the gas after the onset of star formation. These feedback processes typically take place on small scales ($\sim 10-100$ pc) and their effects have therefore been difficult to constrain in environments other than the Milky Way. We apply a novel statistical method to $\sim 1$" resolution maps of CO and Ha emission across a sample of nine nearby disc galaxies, in order to measure the time over which GMCs are dispersed by feedback from young, high-mass stars, as a function of the galactic environment. We find that GMCs are typically dispersed within $\sim$ 3 Myr after the emergence of unembedded high-mass stars, showing no significant trend with galactocentric radius. Comparison with analytical predictions demonstrates that, independently of the environment, early feedback mechanisms (particularly photoionisation and stellar winds) play a crucial role in dispersing GMCs and limiting their star formation efficiency in nearby galaxies. Finally, we show that the efficiency at which the energy injected by these early feedback mechanisms couples with the parent GMC is relatively low (a few tens of per cent), such that the vast majority of momentum and energy emitted by the young stellar populations escapes the parent GMC., Comment: 17 pages, 8 figures, 3 tables; submitted to MNRAS (October 23, 2020)

Published

2020

37. Measuring the mixing scale of the ISM within nearby spiral galaxies

Author

Kreckel, Kathryn, Ho, I-Ting, Blanc, Guillermo A., Glover, Simon C. O., Groves, Brent, Rosolowsky, Erik, Bigiel, Frank, Boquien, Mederic, Chevance, Melanie, Dale, Daniel A., Deger, Sinan, Emsellem, Eric, Grasha, Kathryn, Kim, Jenny J., Klessen, Ralf S., Kruijssen, J. M. Diederik, Lee, Janice C., Leroy, Adam K., Liu, Daizhong, McElroy, Rebecca, Meidt, Sharon E., Pessa, Ismael, Sanchez-Blazquez, Patricia, Sandstrom, Karin, Santoro, Francesco, Scheuermann, Fabian, Schinnerer, Eva, Schruba, Andreas, Utomo, Dyas, Watkins, Elizabeth J., and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The spatial distribution of metals reflects, and can be used to constrain, the processes of chemical enrichment and mixing. Using PHANGS-MUSE optical integral field spectroscopy, we measure the gas phase oxygen abundances (metallicities) across 7,138 HII regions in a sample of eight nearby disc galaxies. In Paper I (Kreckel et al. 2019) we measure and report linear radial gradients in the metallicities of each galaxy, and qualitatively searched for azimuthal abundance variations. Here, we examine the two-dimensional variation in abundances once the radial gradient is subtracted, Delta(O/H), in order to quantify the homogeneity of the metal distribution and to measure the mixing scale over which HII region metallicities are correlated. We observe low (0.03--0.05 dex) scatter in Delta(O/H) globally in all galaxies, with significantly lower (0.02--0.03 dex) scatter on small (<600 pc) spatial scales. This is consistent with the measurement uncertainties, and implies the two-dimensional metallicity distribution is highly correlated on scales of <600 pc. We compute the two point correlation function for metals in the disc in order to quantify the scale lengths associated with the observed homogeneity. This mixing scale is observed to correlate better with the local gas velocity dispersion (of both cold and ionized gas) than with the star formation rate. Selecting only HII regions with enhanced abundances relative to a linear radial gradient, we do not observe increased homogeneity on small scales. This suggests that the observed homogeneity is driven by the mixing introducing material from large scales rather than by pollution from recent and on-going star formation., Comment: 17 pages, 14 figures. Accepted for publication in MNRAS

Published

2020

38. PHANGS CO kinematics: disk orientations and rotation curves at 150 pc resolution

Author

Lang, Philipp, Meidt, Sharon E., Rosolowsky, Erik, Nofech, Joseph, Schinnerer, Eva, Leroy, Adam K., Emsellem, Eric, Pessa, Ismael, Glover, Simon C. O., Groves, Brent, Hughes, Annie, Kruijssen, J. M. Diederik, Querejeta, Miguel, Schruba, Andreas, Bigiel, Frank, Blanc, Guillermo A., Chevance, Melanie, Colombo, Dario, Faesi, Christopher, Henshaw, Jonathan D., Herrera, Cinthya N., Liu, Daizhong, Pety, Jerome, Puschnig, Johannes, Saito, Toshiki, Sun, Jiayi, and Usero, Antonio

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present kinematic orientations and high resolution (150 pc) rotation curves for 67 main sequence star-forming galaxies surveyed in CO (2-1) emission by PHANGS-ALMA. Our measurements are based on the application of a new fitting method tailored to CO velocity fields. Our approach identifies an optimal global orientation as a way to reduce the impact of non-axisymmetric (bar and spiral) features and the uneven spatial sampling characteristic of CO emission in the inner regions of nearby galaxies. The method performs especially well when applied to the large number of independent lines-of-sight contained in the PHANGS CO velocity fields mapped at 1'' resolution. The high resolution rotation curves fitted to these data are sensitive probes of mass distribution in the inner regions of these galaxies. We use the inner slope as well as the amplitude of our fitted rotation curves to demonstrate that CO is a reliable global dynamical mass tracer. From the consistency between photometric orientations from the literature and kinematic orientations determined with our method, we infer that the shapes of stellar disks in the mass range of log($\rm M_{\star}(M_{\odot})$)=9.0-10.9 probed by our sample are very close to circular and have uniform thickness., Comment: 19 figures, 36 pages, accepted for publication in ApJ. Table of PHANGS rotation curves available from http://phangs.org/data

Published

2020

39. Reproducing the Universe: a comparison between the EAGLE simulations and the nearby DustPedia galaxy sample

Author

Trčka, Ana, Baes, Maarten, Camps, Peter, Meidt, Sharon E., Trayford, James, Bianchi, Simone, Casasola, Viviana, Cassarà, Letizia P., De Looze, Ilse, De Vis, Pieter, Dobbels, Wouter, Fritz, Jacopo, Galametz, Maud, Galliano, Frédéric, Katsianis, Antonios, Madden, Suzanne C., Mosenkov, Aleksandr V., Nersesian, Angelos, Viaene, Sébastien, and Xilouris, Emmanuel M.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We compare the spectral energy distributions (SEDs) and inferred physical properties for simulated and observed galaxies at low redshift. We exploit UV-submillimetre mock fluxes of ~7000 z=0 galaxies from the EAGLE suite of cosmological simulations, derived using the radiative transfer code SKIRT. We compare these to ~800 observed galaxies in the UV-submillimetre range, from the DustPedia sample of nearby galaxies. To derive global properties, we apply the SED fitting code CIGALE consistently to both data sets, using the same set of ~80 million models. The results of this comparison reveal overall agreement between the simulations and observations, both in the SEDs and in the derived physical properties, with a number of discrepancies. The optical and far-infrared regimes, and the scaling relations based upon the global emission, diffuse dust and stellar mass, show high levels of agreement. However, the mid-infrared fluxes of the EAGLE galaxies are overestimated while the far-UV domain is not attenuated enough, compared to the observations. We attribute these discrepancies to a combination of galaxy population differences between the samples, and limitations in the subgrid treatment of star-forming regions in the EAGLE-SKIRT post-processing recipe. Our findings show the importance of detailed radiative transfer calculations and consistent comparison, and provide suggestions for improved numerical models., Comment: 17 pages, 14 figures, accepted for publication in MNRAS

Published

2020

40. A model for the onset of self-gravitation and star formation in molecular gas governed by galactic forces: II. the bottleneck to collapse set by cloud-environment decoupling

Author

Meidt, Sharon E., Glover, Simon C. O., Kruijssen, J. M. Diederik, Leroy, Adam K., Rosolowsky, Erik, Schruba, Andreas, Hughes, Annie, Schinnerer, Eva, Usero, Antonio, Bigiel, Frank, Blanc, Guillermo, Chevance, Melanie, Pety, Jerome, Querejeta, Miguel, and Utomo, Dyas

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

In Meidt et al. (2018), we showed that gas kinematics on the scale of individual molecular clouds are not dominated by self-gravity but also track a component that originates with orbital motion in the potential of the host galaxy. This agrees with observed cloud line widths, which show systematic variations from virial motions with environment, pointing at the influence of the galaxy potential. In this paper, we hypothesize that these motions act to slow down the collapse of gas and so help regulate star formation. Extending the results of Meidt et al. (2018), we derive a dynamical collapse timescale that approaches the free-fall time only once the gas has fully decoupled from the galactic potential. Using this timescale we make predictions for how the fraction of free-falling, strongly self-gravitating gas varies throughout the disks of star-forming galaxies. We also use this collapse timescale to predict variations in the molecular gas star formation efficiency, which is lowered from a maximum, feedback-regulated level in the presence of strong coupling to the galactic potential. Our model implies that gas can only decouple from the galaxy to collapse and efficiently form stars deep within clouds. We show that this naturally explains the observed drop in star formation rate per unit gas mass in the Milky Way's CMZ and other galaxy centers. The model for a galactic bottleneck to star formation also agrees well with resolved observations of dense gas and star formation in galaxy disks and the properties of local clouds., Comment: Accepted for publication in ApJ, 32 pages, 11 figures

Published

2020

41. The lifecycle of molecular clouds in nearby star-forming disc galaxies

Author

Chevance, Mélanie, Kruijssen, J. M. Diederik, Hygate, Alexander P. S., Schruba, Andreas, Longmore, Steven N., Groves, Brent, Henshaw, Jonathan D., Herrera, Cinthya N., Hughes, Annie, Jeffreson, Sarah M. R., Lang, Philipp, Leroy, Adam K., Meidt, Sharon E., Pety, Jérôme, Razza, Alessandro, Rosolowsky, Erik, Schinnerer, Eva, Bigiel, Frank, Blanc, Guillermo A., Emsellem, Eric, Faesi, Christopher M., Glover, Simon C. O., Haydon, Daniel T., Ho, I-Ting, Kreckel, Kathryn, Lee, Janice C., Liu, Daizhong, Querejeta, Miguel, Saito, Toshiki, Sun, Jiayi, Usero, Antonio, and Utomo, Dyas

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

It remains a major challenge to derive a theory of cloud-scale ($\lesssim100$ pc) star formation and feedback, describing how galaxies convert gas into stars as a function of the galactic environment. Progress has been hampered by a lack of robust empirical constraints on the giant molecular cloud (GMC) lifecycle. We address this problem by systematically applying a new statistical method for measuring the evolutionary timeline of the GMC lifecycle, star formation, and feedback to a sample of nine nearby disc galaxies, observed as part of the PHANGS-ALMA survey. We measure the spatially-resolved ($\sim100$ pc) CO-to-H$\alpha$ flux ratio and find a universal de-correlation between molecular gas and young stars on GMC scales, allowing us to quantify the underlying evolutionary timeline. GMC lifetimes are short, typically 10-30 Myr, and exhibit environmental variation, between and within galaxies. At kpc-scale molecular gas surface densities $\Sigma_{\rm H_2}\geqslant8$M$_{\odot}$pc$^{-2}$, the GMC lifetime correlates with time-scales for galactic dynamical processes, whereas at $\Sigma_{\rm H_2}\leqslant8$M$_{\odot}$pc$^{-2}$ GMCs decouple from galactic dynamics and live for an internal dynamical time-scale. After a long inert phase without massive star formation traced by H$\alpha$ (75-90% of the cloud lifetime), GMCs disperse within just 1-5 Myr once massive stars emerge. The dispersal is most likely due to early stellar feedback, causing GMCs to achieve integrated star formation efficiencies of 4-10% These results show that galactic star formation is governed by cloud-scale, environmentally-dependent, dynamical processes driving rapid evolutionary cycling. GMCs and HII regions are the fundamental units undergoing these lifecycles, with mean separations of 100-300 pc in star-forming discs. Future work should characterise the multi-scale physics and mass flows driving these lifecycles., Comment: 39 pages, 14 figures; resubmitted to MNRAS after a favourable referee report (November 6, 2019)

Published

2019

42. The headlight cloud in NGC 628: An extreme giant molecular cloud in a typical galaxy disk

Author

Herrera, Cinthya N., Pety, Jérôme, Hughes, Annie, Meidt, Sharon E., Kreckel, Kathryn, Querejeta, Miguel, Saito, Toshiki, Lang, Philipp, Jiménez-Donaire, María Jesús, Pessa, Ismael, Cormier, Diane, Usero, Antonio, Sliwa, Kazimierz, Faesi, Christopher, Blanc, Guillermo A., Bigiel, Frank, Chevance, Mélanie, Dale, Daniel A., Grasha, Kathryn, Glover, Simon C. O., Hygate, Alexander P. S., Kruijssen, J. M. Diederik, Leroy, Adam K., Rosolowsky, Erik, Schinnerer, Eva, Schruba, Andreas, Sun, Jiayi, and Utomo, Dyas

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Cloud-scale surveys of molecular gas reveal the link between molecular clouds properties and star formation (SF) across a range of galactic environments. Cloud populations in galaxy disks are considered to be representative of the `normal' SF. At high resolution, however, clouds with exceptional gas properties and SF activity may also be observed in normal disk environments. In this paper, we study the brightest cloud traced in CO emission in the disk of NGC628. The cloud is spatially coincident with an extremely bright HII region. We characterize its molecular gas properties and investigate how feedback and large-scale processes influence the properties of the molecular gas. High resolution CO ALMA observations are used to characterize its mass and dynamical state, which are compared to other clouds in NGC628. A LVG analysis is used to constrain the beam-diluted density and temperature of the molecular gas. We analyze the MUSE spectrum using Starburst99 to characterize the young stellar population associated with the HII region. The cloud is massive ($1-2\times10^7$M$_{\odot}$), with a beam-diluted density of $n_{\rm H_2}=5\times10^4$ cm$^{-3}$. It has a low virial parameter, suggesting that its CO emission may be overluminous due to heating by the HII region. A young ($2-4$ Myr), massive $3\times10^{5}$ M$_{\odot}$ stellar population is associated. We argue that the cloud is currently being destroyed by feedback from young massive stars. Due to the cloud's large mass, this phase of the cloud's evolution is long enough for the impact of feedback on the excitation of the gas to be observed. Its high mass may be related to its location at a spiral co-rotation radius, where gas experiences reduced galactic shear compared to other regions of the disk, and receives a sustained inflow of gas that can promote the cloud's mass growth., Comment: A&A accepted

Published

2019

43. Mapping electron temperature variations across a spiral arm in NGC 1672

Author

Ho, I-Ting, Kreckel, Kathryn, Meidt, Sharon E., Groves, Brent, Blanc, Guillermo A., Bigiel, Frank, Dale, Daniel A., Emsellem, Eric, Glover, Simon C. O., Grasha, Kathryn, Kewley, Lisa J., Kruijssen, J. M. Diederik, Lang, Philipp, McElroy, Rebecca, Kudritzki, Rolf-Peter, Sanchez-Blazquez, Patricia, Sandstrom, Karin, Santoro, Francesco, Schinnerer, Eva, and Schruba, Andreas

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We report one of the first extragalactic observations of electron temperature variations across a spiral arm. Using MUSE mosaic observations of the nearby galaxy NGC 1672, we measure the [N II]5755 auroral line in a sample of 80 HII regions in the eastern spiral arm of NGC1672. We discover systematic temperature variations as a function of distance perpendicular to the spiral arm. The electron temperature is lowest on the spiral arm itself and highest on the downstream side. Photoionization models of different metallicity, pressure, and age of the ionizing source are explored to understand what properties of the interstellar medium drive the observed temperature variations. An azimuthally varying metallicity appears to be the most likely cause of the temperature variations. The electron temperature measurements solidify recent discoveries of azimuthal variations of oxygen abundance based on strong lines, and rule out the possibility that the abundance variations are artefacts of the strong-line calibrations., Comment: 9 pages, 5 figure, accepted to ApJ Letter

Published

2019

44. Do Spectroscopic Dense Gas Fractions Track Molecular Cloud Surface Densities?

Author

Gallagher, Molly J., Leroy, Adam K., Bigiel, Frank, Cormier, Diane, Jiménez-Donaire, María J., Hughes, Annie, Pety, Jérôme, Schinnerer, Eva, Sun, Jiayi, Usero, Antonio, Utomo, Dyas, Bolatto, Alberto, Chevance, Mélanie, Faesi, Christopher M., Glover, Simon C. O., Kepley, Amanda A., Kruijssen, J. M. Diederik, Krumholz, Mark R., Meidt, Sharon E., Meier, David S., Murphy, Eric J., Querejeta, Miguel, Rosolowsky, Erik, Saito, Toshiki, and Schruba, Andreas

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We use ALMA and IRAM 30-m telescope data to investigate the relationship between the spectroscopically-traced dense gas fraction and the cloud-scale (120 pc) molecular gas surface density in five nearby, star-forming galaxies. We estimate the dense gas mass fraction at 650 pc and 2800 pc scales using the ratio of HCN (1-0) to CO (1-0) emission. We then use high resolution (120 pc) CO (2-1) maps to calculate the mass-weighted average molecular gas surface density within 650 pc or 2770 pc beam where the dense gas fraction is estimated. On average, the dense gas fraction correlates with the mass-weighted average molecular gas surface density. Thus, parts of a galaxy with higher mean cloud-scale gas surface density also appear to have a larger fraction of dense gas. The normalization and slope of the correlation do vary from galaxy to galaxy and with the size of the regions studied. This correlation is consistent with a scenario where the large-scale environment sets the gas volume density distribution, and this distribution manifests in both the cloud-scale surface density and the dense gas mass fraction., Comment: 11 pages, 4 figures, accepted for publication in The Astrophysical Journal Letters

Published

2018

45. Azimuthal variations of gas-phase oxygen abundance in NGC 2997

Author

Ho, I-Ting, Meidt, Sharon E., Kudritzki, Rolf-Peter, Groves, Brent A., Seibert, Mark, Madore, Barry F., Schinnerer, Eva, Rich, Jeffrey A., Kobayashi, Chiaki, and Kewley, Lisa J.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The azimuthal variation of the HII region oxygen abundance in spiral galaxies is a key observable for understanding how quickly oxygen produced by massive stars can be dispersed within the surrounding interstellar medium. Observational constraints on the prevalence and magnitude of such azimuthal variations remain rare in the literature. Here, we report the discovery of pronounced azimuthal variations of HII region oxygen abundance in NGC 2997, a spiral galaxy at approximately 11.3 Mpc. Using 3D spectroscopic data from the TYPHOON Program, we study the HII region oxygen abundance at a physical resolution of 125 pc. Individual HII regions or complexes are identified in the 3D optical data and their strong emission line fluxes measured to constrain their oxygen abundances. We find 0.06 dex azimuthal variations in the oxygen abundance on top of a radial abundance gradient that is comparable to those seen in other star-forming disks. At a given radial distance, the oxygen abundances are highest in the spiral arms and lower in the inter-arm regions, similar to what has been reported in NGC 1365 using similar observations. We discuss whether the azimuthal variations could be recovered when the galaxy is observed at worse physical resolutions and lower signal-to-noise ratios., Comment: 13 pages, 17 figures, accepted to A&A

Published

2018

46. Dense Gas, Dynamical Equilibrium Pressure, and Star Formation in Nearby Star-Forming Galaxies

Author

Gallagher, Molly J., Leroy, Adam K., Bigiel, Frank, Cormier, Diane, Jiménez-Donaire, María J., Ostriker, Eve, Usero, Antonio, Bolatto, Alberto D., García-Burillo, Santiago, Hughes, Annie, Kepley, Amanda A., Krumholz, Mark, Meidt, Sharon E., Meier, David S., Murphy, Eric J., Pety, Jérôme, Rosolowsky, Erik, Schinnerer, Eva, Schruba, Andreas, and Walter, Fabian

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We use new ALMA observations to investigate the connection between dense gas fraction, star formation rate, and local environment across the inner region of four local galaxies showing a wide range of molecular gas depletion times. We map HCN (1-0), HCO$^+$ (1-0), CS (2-1), $^{13}$CO (1-0), and C$^{18}$O (1-0) across the inner few kpc of each target. We combine these data with short spacing information from the IRAM large program EMPIRE, archival CO maps, tracers of stellar structure and recent star formation, and recent HCN surveys by Bigiel et al. and Usero et al. We test the degree to which changes in the dense gas fraction drive changes in the SFR. $I_{HCN}/I_{CO}$ (tracing the dense gas fraction) correlates strongly with $I_{CO}$ (tracing molecular gas surface density), stellar surface density, and dynamical equilibrium pressure, $P_{DE}$. Therefore, $I_{HCN}/I_{CO}$ becomes very low and HCN becomes very faint at large galactocentric radii, where ratios as low as $I_{HCN}/I_{CO} \sim 0.01$ become common. The apparent ability of dense gas to form stars, $\Sigma_{SFR}/\Sigma_{dense}$ (where $\Sigma_{dense}$ is traced by the HCN intensity and the star formation rate is traced by a combination of H$\alpha$ and 24$\mu$m emission), also depends on environment. $\Sigma_{SFR}/\Sigma_{dense}$ decreases in regions of high gas surface density, high stellar surface density, and high $P_{DE}$. Statistically, these correlations between environment and both $\Sigma_{SFR}/\Sigma_{dense}$ and $I_{HCN}/I_{CO}$ are stronger than that between apparent dense gas fraction ($I_{HCN}/I_{CO}$) and the apparent molecular gas star formation efficiency $\Sigma_{SFR}/\Sigma_{mol}$. We show that these results are not specific to HCN., Comment: 31 pages, 13 figures, accepted for publication in The Astrophysical Journal, email for access to data table before publication

Published

2018

47. A Model for the Onset of Self-gravitation and Star Formation in Molecular Gas Governed by Galactic Forces: I. Cloud-scale Gas Motions

Author

Meidt, Sharon E., Leroy, Adam K., Rosolowsky, Erik, Kruijssen, J. M. Diederik, Schinnerer, Eva, Schruba, Andreas, Pety, Jerome, Blanc, Guillermo, Bigiel, Frank, Chevance, Melanie, Hughes, Annie, Querejeta, Miguel, and Usero, Antonio

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Modern extragalactic molecular gas surveys now reach the scales of star-forming giant molecular clouds (GMCs, 20-50 pc). Systematic variations in GMC properties with galaxy environment imply that clouds are not universally self-gravitating objects, decoupled from their surroundings. Here we reexamine the coupling of clouds to their environment and develop a model for 3D gas motions generated by forces arising with the galaxy gravitational potential defined by the background disk of stars and dark matter. We show that these motions can resemble or even exceed the motions needed to support gas against its own self-gravity throughout typical galaxy disks. The importance of the galactic potential in spiral arms and galaxy centers suggests that the response to self-gravity does not always dominate the motions of gas at GMC scales, with implications for observed gas kinematics, virial equilibrium and cloud morphology. We describe how a uniform treatment of gas motions in the plane and in the vertical direction synthesizes the two main mechanisms proposed to regulate star formation: vertical pressure equilibrium and shear/Coriolis forces as parameterized by Toomre Q~1. As the modeled motions are coherent and continually driven by the external potential, they represent support for the gas that is distinct from that conventionally attributed to turbulence, which decays rapidly and requires thus maintenance, e.g. via feedback from star formation. Thus our model suggests the galaxy itself can impose an important limit to star formation, as we explore in a second paper in this series., Comment: Accepted for publication in ApJ, 26 pages, 11 figures

Published

2017

48. Orbital decomposition of CALIFA spiral galaxies

Author

Zhu, Ling, Bosch, Remco van den, van de Ven, Glenn, Lyubenova, Mariya, Falcón-Barroso, Jesús, Meidt, Sharon E., Martig, Marie, Shen, Juntai, Li, Zhao-Yu, Yildirim, Akin, Walcher, C. Jakob, and Sanchez, Sebastian F.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Schwarzschild orbit-based dynamical models are widely used to uncover the internal dynamics of early-type galaxies and globular clusters. Here we present for the first time the Schwarzschild models of late-type galaxies: an SBb galaxy NGC 4210 and an S0 galaxy NGC 6278 from the CALIFA survey. The mass profiles within $2\,R_e$ are constrained well with $1\sigma$ statistical error of $\sim 10\%$. The luminous and dark mass can be disentangled with uncertainties of $\sim 20\%$ and $\sim 50\%$ respectively. From $R_e$ to $2\,R_e$, the dark matter fraction increases from $14\pm10\%$ to $18\pm10\%$ for NGC 4210 and from $15\pm10\%$ to $30\pm20\%$ for NGC 6278. The velocity anisotropy profiles of both $\sigma_r/\sigma_t$ and $\sigma_z/\sigma_R$ are well constrained. The inferred internal orbital distributions reveal clear substructures. The orbits are naturally separated into three components: a cold component with near circular orbits, a hot component with near radial orbits, and a warm component in between. The photometrically-identified exponential disks are predominantly made up of cold orbits only beyond $\sim 1\,R_e$, while they are constructed mainly with the warm orbits inside. Our dynamical hot components are concentrated in the inner regions, similar to the photometrically-identified bulges. The reliability of the results, especially the orbit distribution, are verified by applying the model to mock data., Comment: accepted by MNRAS

Published

2017

49. The Chemical Evolution Carousel of Spiral Galaxies: Azimuthal Variations of Oxygen Abundance in NGC1365

Author

Ho, I-Ting, Seibert, Mark, Meidt, Sharon E., Kudritzki, Rolf-Peter, Kobayashi, Chiaki, Groves, Brent A., Kewley, Lisa J., Madore, Barry F., Rich, Jeffrey A., Schinnerer, Eva, D'Agostino, Joshua, and Poetrodjojo, Henry

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The spatial distribution of oxygen in the interstellar medium of galaxies is the key to understanding how efficiently metals that are synthesized in massive stars can be redistributed across a galaxy. We present here a case study in the nearby spiral galaxy NGC1365 using 3D optical data obtained in the TYPHOON Program. We find systematic azimuthal variations of the HII region oxygen abundance imprinted on a negative radial gradient. The 0.2 dex azimuthal variations occur over a wide radial range of 0.3 to 0.7 R25 and peak at the two spiral arms in NGC1365. We show that the azimuthal variations can be explained by two physical processes: gas undergoes localized, sub-kpc scale self-enrichment when orbiting in the inter-arm region, and experiences efficient, kpc scale mixing-induced dilution when spiral density waves pass through. We construct a simple chemical evolution model to quantitatively test this picture and find that our toy model can reproduce the observations. This result suggests that the observed abundance variations in NGC1365 are a snapshot of the dynamical local enrichment of oxygen modulated by spiral-driven, periodic mixing and dilution., Comment: 19 pages, 13 figures. Accepted to ApJ

Published

2017

50. Do spiral arms enhance star formation efficiency?

Author

Querejeta, Miguel, primary, Leroy, Adam K., additional, Meidt, Sharon E., additional, Schinnerer, Eva, additional, Belfiore, Francesco, additional, Emsellem, Eric, additional, Klessen, Ralf S., additional, Sun, Jiayi, additional, Sormani, Mattia, additional, Beslic, Ivana, additional, Cao, Yixian, additional, Chevance, Mélanie, additional, Colombo, Dario, additional, Dale, Daniel A., additional, García-Burillo, Santiago, additional, Glover, Simon C.O., additional, Grasha, Kathryn, additional, Groves, Brent, additional, Koch, Eric W., additional, Neumann, Lukas, additional, Pan, Hsi-An, additional, Pessa, Ismael, additional, Pety, Jérôme, additional, Pinna, Francesca, additional, Ramambason, Lise, additional, Razza, Alessandro, additional, Romanelli, Andrea, additional, Rosolowsky, Erik, additional, Ruiz-García, Marina, additional, Sánchez-Blázquez, Patricia, additional, Smith, Rowan, additional, Stuber, Sophia, additional, Ubeda, Leonardo, additional, Usero, Antonio, additional, and Williams, Thomas G., additional

Published

2024