Your search keyword '"Hunter, Deidre A."' showing total 504 results

1. The Local Group L-Band Survey: The First Measurements of Localized Cold Neutral Medium Properties in the Low-Metallicity Dwarf Galaxy NGC 6822

Author

Pingel, Nickolas M., Chen, Hongxing, Stanimirović, Snežana, Koch, Eric W., Leroy, Adam K., Rosolowsky, Erik, Kim, Chang-Goo, Dalcanton, Julianne J., Walter, Fabian, Busch, Michael P., Chown, Ryan, Meyer, Jennifer Donovan, Eibensteiner, Cosima, Hunter, Deidre A., Sarbadhicary, Sumit K., Tarantino, Elizabeth, Villanueva, Vicente, and Williams, Thomas G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Measuring the properties of the cold neutral medium (CNM) in low-metallicity galaxies provides insight into heating and cooling mechanisms in early Universe-like environments. We report detections of two localized atomic neutral hydrogen (HI) absorption features in NGC 6822, a low-metallicity (0.2 Z$_{\odot}$) dwarf galaxy in the Local Group. These are the first unambiguous CNM detections in a low-metallicity dwarf galaxy outside the Magellanic Clouds. The Local Group L-Band Survey (LGLBS) enabled these detections due to its high spatial (15 pc for HI emission) and spectral (0.4 \kms) resolution. We introduce LGLBS and describe a custom pipeline to search for HI absorption at high angular resolution and extract associated HI emission. A detailed Gaussian decomposition and radiative transfer analysis of the NGC 6822 detections reveals five CNM components, with key properties: a mean spin temperature of 32$\pm$6 K, a mean CNM column density of 3.1$\times$10$^{20}$ cm$^{-2}$, and CNM mass fractions of 0.33 and 0.12 for the two sightlines. Stacking non-detections does not reveal low-level signals below our median optical depth sensitivity of 0.05. One detection intercepts a star-forming region, with the HI absorption profile encompassing the CO (2$-$1) emission, indicating coincident molecular gas and a depression in high-resolution HI emission. We also analyze a nearby sightline with deep, narrow HI self-absorption dips, where the background warm neutral medium is attenuated by intervening CNM. The association of CNM, CO, and H$\alpha$ emissions suggests a close link between the colder, denser HI phase and star formation in NGC 6822., Comment: 20 pages, 11 figures, accepted for publication in ApJ

Published

2024

2. Probing the relationship between early star formation and CO in the dwarf irregular galaxy WLM with JWST

Author

Archer, Haylee N., Hunter, Deidre A., Elmegreen, Bruce G., Rubio, Monica, Cigan, Phil, Windhorst, Rogier A., Cortés, Juan R., and Jansen, Rolf A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Wolf-Lundmark-Melotte (WLM) is a Local Group dwarf irregular (dIrr) galaxy with a metallicity 13% of solar. At 1 Mpc, the relative isolation of WLM provides a unique opportunity to investigate the internal mechanisms of star formation at low metallicities. The earliest stages of star formation in larger spirals occur in embedded clusters within molecular clouds, but dIrrs lack the dust, heavy metals, and organized structure of spirals believed necessary to collapse the molecular clouds into stars. Despite actively forming stars, the early stages of star formation in dIrrs is not well understood. We examine the relationship between early star formation and molecular clouds at low metallicities. We utilize ALMA-detected CO cores, $\textit{JWST}$ near-infrared (NIR) images (F090W, F150W, F250M, and F430M), and $\textit{GALEX}$ far-ultraviolet (FUV) images of WLM to trace molecular clouds, early star formation, and longer star formation timescales respectively. We compare clumps of NIR-bright sources (referred to as objects) categorized into three types based on their proximity to FUV sources and CO cores. We find objects, independent of their location, have similar colors and magnitudes and no discernible difference in temperature. However, we find that objects near CO have higher masses than objects away from CO, independent of proximity to FUV. Additionally, objects near CO are coincident with Spitzer 8 $\mu$m sources at a higher frequency than objects elsewhere in WLM. This suggests objects near CO may be embedded star clusters at an earlier stage of star formation, but accurate age estimates for all objects are required for confirmation., Comment: In press in the Astronomical Journal

Published

2024

3. The Interstellar Medium in Dwarf Irregular Galaxies

Author

Hunter, Deidre A., Elmegreen, Bruce G., and Madden, Suzanne C.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Dwarf irregulars (dIrrs) are among the most common type of galaxy in the Universe. They typically have gas-rich, low surface-brightness, metal-poor, and relatively-thick disks. Here we summarize the current state of our knowledge of the interstellar medium (ISM), including atomic, molecular and ionized gas, along with their dust properties and metals. We also discuss star formation feedback, gas accretion, and mergers with other dwarfs that connect the ISM to the circumgalactic and intergalactic media. We highlight one of the most persistent mysteries: the nature of pervasive gas that is yet undetected as either molecular or cold hydrogen, the ``dark gas''. Here are a few highlights: 1. Significant quantities of HI are in far-outer gas disks. 2. Cold HI in dIrrs would be molecular in the Milky Way, making the chemical properties of star-forming clouds significantly different. 3. Stellar feedback has a much larger impact in dIrrs than in spiral galaxies. 4. The escape fraction of ionizing photons is significant, making dIrrs a plausible source for reionization in the early Universe. 5. Observations suggest a significantly higher abundance of hydrogen (H$_2$ or cold HI) associated with CO in star-forming regions than that traced by the CO alone., Comment: To be published in Annual Reviews of Astronomy and Astrophysics 2024, Vol 62

Published

2024

4. Universal Upper End of the Stellar Initial Mass Function in the Young and Compact LEGUS clusters

Author

Jung, Dooseok Escher, Calzetti, Daniela, Messa, Matteo, Heyer, Mark, Sirressi, Mattia, Linden, Sean T., Adamo, Angela, Chandar, Rupali, Cignoni, Michele, Cook, David O., Dobbs, Clare L., Elmegreen, Bruce G., Evans, Aaron S., Fumagalli, Michele, Gallagher III, John S., Hunter, Deidre A., Johnson, Kelsey E., Kennicutt Jr., Robert C., Krumholz, Mark R., Schaerer, Daniel, Sabbi, Elena, Smith, Linda J., Tosi, Monica, and Wofford, Aida

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

We investigate the variation in the upper end of stellar initial mass function (uIMF) in 375 young and compact star clusters in five nearby galaxies within $\sim 5$ Mpc. All the young stellar clusters (YSCs) in the sample have ages $\lesssim 4$ Myr and masses above 500 $M_{\odot}$, according to standard stellar models. The YSC catalogs were produced from Hubble Space Telescope images obtained as part of the Legacy ExtraGalactic UV Survey (LEGUS) Hubble treasury program. They are used here to test whether the uIMF is universal or changes as a function of the cluster's stellar mass. We perform this test by measuring the H$\alpha$ luminosity of the star clusters as a proxy for their ionizing photon rate, and charting its trend as a function of cluster mass. Large cluster numbers allow us to mitigate the stochastic sampling of the uIMF. The advantage of our approach relative to previous similar attempts is the use of cluster catalogs that have been selected independently of the presence of H$\alpha$ emission, thus removing a potential sample bias. We find that the uIMF, as traced by the H$\alpha$ emission, shows no dependence on cluster mass, suggesting that the maximum stellar mass that can be produced in star clusters is universal, in agreement with previous findings.

Published

2023

5. A Search for correlations between turbulence and star formation in THINGS galaxies

Author

Elmegreen, Bruce G., Martinez, Zorayda, and Hunter, Deidre A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The spatial range for feedback from star formation varies from molecular cloud disruption on parsec scales to supershells and disk blowout on kiloparsec scales. The relative amounts of energy and momentum given to these scales is important for understanding the termination of star formation in any one region and the origin of interstellar turbulence and disk stability in galaxies as a whole. Here we measure for eleven THINGS galaxies the excess kinetic energy, velocity dispersion and surface density of HI gas associated with regions of excess star formation, where the excess is determined from the difference between the observed local value and the azimuthal average. We find small decreases in the excess kinetic energy and velocity dispersion in regions of excess star formation rate density, suggesting that most of the feedback energy does not go into local HI motion. Most likely it disrupts molecular clouds and dissipates rapidly at high gas density. Some could also be distributed over larger regions, filling in spaces between the peaks of star formation and contributing to other energy sources from self-gravity and spiral arm shocks., Comment: accepted by ApJ, 17 pages, 14 figures

Published

2022

6. The Environments of CO Cores and Star Formation in the Dwarf Irregular Galaxy WLM

Author

Archer, Haylee N., Hunter, Deidre A., Elmegreen, Bruce G., Cigan, Phil, Jansen, Rolf A., Windhorst, Rogier A., Hunt, Leslie K., and Rubio, Monica

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The low metallicities of dwarf irregular galaxies (dIrr) greatly influence the formation and structure of molecular clouds. These clouds, which consist primarily of H$_2$, are typically traced by CO, but low metallicity galaxies are found to have little CO despite ongoing star formation. In order to probe the conditions necessary for CO core formation in dwarf galaxies, we have used the catalog of Rubio et al. (2022, in preparation) for CO cores in WLM, a Local Group dwarf with an oxygen abundance that is 13% of solar. Here we aim to characterize the galactic environments in which these 57 CO cores formed. We grouped the cores together based on proximity to each other and strong FUV emission, examining properties of the star forming region enveloping the cores and the surrounding environment where the cores formed. We find that high HI surface density does not necessarily correspond to higher total CO mass, but regions with higher CO mass have higher HI surface densities. We also find the cores in star forming regions spanning a wide range of ages show no correlation between age and CO core mass, suggesting that the small size of the cores is not due to fragmentation of the clouds with age. The presence of CO cores in a variety of different local environments, along with the similar properties between star forming regions with and without CO cores, leads us to conclude that there are no obvious environmental characteristics that drive the formation of these CO cores., Comment: In press in the Astronomical Journal

Published

2022

7. $\textit{Herschel}$ Photometric Observations of $\mathrm{L{\small{ITTLE}}}$ $\mathrm{T{\small{HINGS}}}$ Dwarf Galaxies

Author

Cigan, Phil, Young, Lisa M., Gomez, Haley L., Madden, Suzanne C., De Vis, Pieter, Hunter, Deidre A., Elmegreen, Bruce G., and Brinks, Elias

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present here far-infrared photometry of galaxies in a sample that is relatively unexplored at these wavelengths: low-metallicity dwarf galaxies with moderate star formation rates. Four dwarf irregular galaxies from the $\mathrm{L{\small{ITTLE}}}$ $\mathrm{T{\small{HINGS}}}$ survey are considered, with deep $\textit{Herschel}$ PACS and SPIRE observations at 100 $\mu$m, 160 $\mu$m, 250 $\mu$m, 350 $\mu$m, and 500 $\mu$m. Results from modified-blackbody fits indicate that these galaxies have low dust masses and cooler dust temperatures than more actively star-forming dwarfs, occupying the lowest $L_\mathrm{TIR}$ and $M_\mathrm{dust}$ regimes seen among these samples. Dust-to-gas mass ratios of $\sim$10$^{-5}$ are lower, overall, than in more massive and active galaxies, but are roughly consistent with the broken power law relation between the dust-to-gas ratio and metallicity found for other low-metallicity systems. Chemical evolution modeling suggests that these dwarf galaxies are likely forming very little dust via stars or grain growth, and have very high dust destruction rates., Comment: 26 pages, 19 figures. To be published in The Astronomical Journal

Published

2021

8. A Search for correlations between turbulence and star formation in LITTLE THINGS dwarf irregular galaxies

Author

Hunter, Deidre A., Elmegreen, Bruce G., Archer, Haylee, Simpson, Caroline E., and Cigan, Phil

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Turbulence has the potential for creating gas density enhancements that initiate cloud and star formation (SF), and it can be generated locally by SF. To study the connection between turbulence and SF, we looked for relationships between SF traced by FUV images, and gas turbulence traced by kinetic energy density (KED) and velocity dispersion ($v_{disp}$) in the LITTLE THINGS sample of nearby dIrr galaxies. We performed 2D cross-correlations between FUV and KED images, measured cross-correlations in annuli to produce correlation coefficients as a function of radius, and determined the cumulative distribution function of the cross correlation value. We also plotted on a pixel-by-pixel basis the locally excess KED, $v_{disp}$, and HI mass surface density, $\Sigma_{\rm HI}$, as determined from the respective values with the radial profiles subtracted, versus the excess SF rate density $\Sigma_{\rm SFR}$, for all regions with positive excess $\Sigma_{\rm SFR}$. We found that $\Sigma_{\rm SFR}$ and KED are poorly correlated. The excess KED associated with SF implies a $\sim0.5$% efficiency for supernova energy to pump local HI turbulence on the scale of resolution here, which is a factor of $\sim2$ too small for all of the turbulence on a galactic scale. The excess $v_{disp}$ in SF regions is also small, only $\sim0.37$ km s$^{-1}$. The local excess in $\Sigma_{\rm HI}$ corresponding to an excess in $\Sigma_{\rm SFR}$ is consistent with an HI consumption time of $\sim1.6$ Gyr in the inner parts of the galaxies. The similarity between this timescale and the consumption time for CO implies that CO-dark molecular gas has comparable mass to HI in the inner disks., Comment: In press in the Astronomical Journal

Published

2021

9. Relationships between the Stellar, Gaseous, and Star Formation Disks in LITTLE THINGS Dwarf Irregular Galaxies: Indirect Evidence for Substantial Fractions of Dark Molecular Gas

Author

Hunter, Deidre A., Elmegreen, Bruce G., Goldberger, Esther, Taylor, Hannah, Ermakov, Anton I., Herrmann, Kimberly A., Oh, Se-Heon, Malko, Bradley, Barandi, Brian, and Jundt, Ryan

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The stellar, gaseous and young stellar disks in the LITTLE THINGS sample of nearby dIrrs are fitted with functions to search for correlations between the parameters. We find that the HI radial profiles are generally flatter in the center and fall faster in the outer regions than the V-band profiles, while young stars are more centrally concentrated, especially if the HI is more centrally flat. This pattern suggests that the HI is turning into molecules in the center and the molecular clouds are forming stars and FUV. A model that assumes the molecular surface density is proportional to the total gas surface density to a power of 1.5 or 2, in analogy with the Kennicutt-Schmidt relation, reproduces the relationship between the ratio of the visible to the HI scale length and the HI Sersic index. The molecular fraction is estimated as a function of radius for each galaxy by converting the FUV to a molecular surface density using conventional calibrations. The average molecular fraction inside 3R_D is 23+/-17%. However, the break in the stellar surface brightness profile has no unified tracer related to star formation., Comment: In press in the Astronomical Journal

Published

2020

10. The Blue Compact Dwarf Galaxy VCC 848 Formed by Dwarf-Dwarf Merging: HI Gas, Star Formation and Numerical Simulations

Author

Zhang, Hong-Xin, Smith, Rory, Oh, Se-Heon, Paudel, Sanjaya, Duc, Pierre-Alain, Boselli, Alessandro, Cote, Patrick, Ferrarese, Laura, Gao, Yu, Hunter, Deidre A., Puzia, Thomas H., Peng, Eric W., Rong, Yu, Shin, Jihye, and Zhao, Yinghe

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

A clear link between a dwarf-dwarf merger event and enhanced star formation (SF) in the recent past was recently identified in the gas-dominated merger remnant VCC 848, offering by far the clearest view of a gas-rich late-stage dwarf-dwarf merger. We present a joint analysis of JVLA HI emission-line mapping, optical imaging and numerical simulations of VCC 848, in order to examine the impact of the merger on the stellar and gaseous distributions. VCC 848 has less than 30% of its HI gas concentrated within the central high-surface-brightness star-forming region, while the remaining HI is entrained in outlying tidal features. Particularly, a well-defined tidal arm reaches N(HI) comparable to the galaxy center but lacks SF. The molecular gas mass inferred from the current SF rate (SFR) dominates over the atomic gas mass in the central ~ 1.5 kpc. VCC 848 is consistent with being a main-sequence star-forming galaxy for its current stellar mass and SFR. The HII region luminosity distribution largely agrees with that of normal dwarf irregulars with similar luminosities, except that the brightest HII region is extraordinarily luminous. Our N-body/hydrodynamical simulations imply that VCC 848 is a merger between a gas-dominated primary progenitor and a gas-bearing star-dominated secondary. The progenitors had their first passage on a near-radial non-coplanar orbit more than 1 Gyr ago. The merger did not build up a core as compact as typical compact dwarfs with centralized starburst, which may be partly ascribed to the star-dominated nature of the secondary, and in a general sense, a negative stellar feedback following intense starbursts triggered at early stages of the merger., Comment: 25 pages, 14 figures, accepted by ApJ

Published

2020

11. Gas engaged in noncircular motions in LITTLE THINGS dwarf irregular galaxies

Author

Hunter, Deidre A., Laufman, Lauren, Oh, Se-Heon, Levine, Stephen E., and Simpson, Caroline E.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We have examined gas engaged in noncircular motions in 22 of the nearby LITTLE THINGS dwarf irregular galaxies. The HI data cubes have been deconvolved into kinematic components - bulk rotation and noncircular motions, to produce maps of integrated gas, velocity field, and velocity dispersion in the different components. We found significant regions of gas engaged in noncircular motions in half of the galaxies, involving 1%-20% of the total HI mass of the galaxy. In one galaxy we found a pattern in the velocity field that is characteristic of streaming motions around the stellar bar potential and star formation at the end of bar. Two galaxies have large-scale filamentary structures found in their outer disks, and these filaments could be transient instabilities in the gas. We found no spatial correlation between noncircular motion gas and enhanced star formation. We found noncircular motion gas in only one galaxy associated with higher HI velocity dispersion., Comment: In press in AJ

Published

2019

12. HI Clouds in LITTLE THINGS Dwarf Irregular Galaxies

Author

Hunter, Deidre A., Elmegreen, Bruce G., and Berger, Clara L.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We identify 814 discrete HI clouds in 40 dwarf irregular galaxies from the LITTLE THINGS survey using an automated cloud-finding algorithm. The cloud masses range from ~10^3 to 10^7 Msolar, have a surface density averaged over all of the clouds of ~9.65 Msolar/pc^2, and constitute 2-53% of the total HI mass of the host galaxy. For individual clouds, the mass including He varies with cloud radius as log M_{gas} = (2.11\pm0.04)x log R_{cl}+(0.78\pm0.08) and the internal velocity dispersion varies as log V_{disp} = 0.5xlog R_{cl}-0.57\pm0.21. The HI clouds tend to be in the outer regions of the galaxies, with 72% of the galaxies having more than 70% of their clouds outside one disk scale length, and 32% of the galaxies having more than 50% of their clouds outside the radius encircling the HII emission. 36% of the clouds are essentially non-self-gravitating from HI alone, with a virial parameter that exceeds alpha_{vir}~10, and 5% have alpha_{vir}\le2. We estimate the missing molecular mass, based on the total star formation rate and a typical molecular consumption time of 2 Gyr, as observed in CO-rich galaxies. The resulting molecular fraction has a value averaged over the galaxies of 0.23 and correlates with both the surface density of star formation and the fraction of HI clouds in the outer regions. We conclude that a significant fraction of the inner parts of these dwarf galaxy disks is in the form of dark molecular gas, and that this fraction could be high enough to make the inner disks mildly gravitationally unstable as a precursor to star formation., Comment: In press in AJ

Published

2019

13. The Nature of Low-Density Star Formation

Author

Thilker, David, Lee, Janice, Capak, Peter, Cook, David, Dale, Daniel, Elmegreen, Bruce, de Paz, Armando Gil, Gallagher, John, Hunter, Deidre, Leroy, Adam, Meurer, Gerhardt, Pisano, D. J., Rafelski, Marc, Tosi, Monica, and Wofford, Aida

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

How do stars manage to form within low-density, HI-dominated gas? Such environments provide a laboratory for studying star formation with physical conditions distinct from starbursts and the metal-rich disks of spiral galaxies where most effort has been invested. Here we outline fundamental open questions about the nature of star formation at low-density. We describe the wide-field, high-resolution UV-optical-IR-radio observations of stars, star clusters and gas clouds in nearby galaxies needed in the 2020's to provide definitive answers, essential for development of a complete theory of star formation., Comment: Science white paper submitted to the Astro2020 Decadal Survey on Astronomy and Astrophysics

Published

2019

14. A comparison of young star properties with local galactic environment for LEGUS/LITTLE THINGS dwarf irregular galaxies

Author

Hunter, Deidre A., Adamo, Angela, Elmegreen, Bruce G., Gallardo, Samavarti, Lee, Janice C., Cook, David O., Thilker, David, Kayitesi, Bridget, Kim, Hwihyun, Kahre, Lauren, Ubeda, Leonardo, Bright, Stacey N., Ryon, Jenna E., Calzetti, Daniela, Tosi, Monica, Grasha, Kathryn, Messa, Matteo, Fumagalli, Michele, Dale, Daniel A., Sabbi, Elena, Cignoni, Michele, Smith, Linda J., Gouliermis, Dimitrios M., Grebel, Eva K., Aloisi, Alessandra, Whitmore, Bradley C., Chandar, Rupali, and Johnson, Kelsey E.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We have explored the role environmental factors play in determining characteristics of young stellar objects in nearby dwarf irregular and Blue Compact Dwarf galaxies. Star clusters are characterized by concentrations, masses, and formation rates, OB associations by mass and mass surface density, O stars by their numbers and near-ultraviolet absolute magnitudes, and HII regions by Halpha surface brightnesses. These characteristics are compared to surrounding galactic pressure, stellar mass density, HI surface density, and star formation rate surface density. We find no trend of cluster characteristics with environmental properties, implying that larger scale effects are more important in determining cluster characteristics or that rapid dynamical evolution erases memory of the initial conditions. On the other hand, the most massive OB associations are found at higher pressure and HI surface density, and there is a trend of higher HII region Halpha surface brightness with higher pressure, suggesting that a higher concentration of massive stars and gas are found preferentially in regions of higher pressure. At low pressures we find massive stars but not bound clusters and OB associations. We do not find evidence for an increase of cluster formation efficiency as a function of star formation rate density. However, there is an increase in the ratio of the number of clusters to number of O stars with pressure, perhaps reflecting an increase in clustering properties with star formation rate., Comment: 32 pages, 28 figures, published in 2018, AJ, 156, 21

Published

2018

15. Star Formation Histories of the LEGUS dwarf galaxies. II. Spatially resolved star formation history of the Magellanic irregular NGC 4449

Author

Sacchi, Elena, Cignoni, Michele, Aloisi, Alessandra, Tosi, Monica, Calzetti, Daniela, Lee, Janice C., Adamo, Angela, Annibali, Francesca, Dale, Daniel A., Elmegreen, Bruce G., Gouliermis, Dimitrios A., Grasha, Kathryn, Grebel, Eva K., Hunter, Deidre A., Sabbi, Elena, Smith, Linda J., Thilker, David A., Ubeda, Leonardo, and Whitmore, Brad C.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present a detailed study of the Magellanic irregular galaxy NGC 4449 based on both archival and new photometric data from the Legacy Extragalactic UV Survey, obtained with the Hubble Space Telescope Advanced Camera for Surveys and Wide Field Camera 3. Thanks to its proximity ($D=3.82\pm 0.27$ Mpc) we reach stars 3 magnitudes fainter than the tip of the red giant branch in the F814W filter. The recovered star formation history spans the whole Hubble time, but due to the age-metallicity degeneracy of the red giant branch stars, it is robust only over the lookback time reached by our photometry, i.e. $\sim 3$ Gyr. The most recent peak of star formation is around 10 Myr ago. The average surface density star formation rate over the whole galaxy lifetime is $0.01$ M$_{\odot}$ yr$^{-1}$ kpc$^{-2}$. From our study it emerges that NGC 4449 has experienced a fairly continuous star formation regime in the last 1 Gyr with peaks and dips whose star formation rates differ only by a factor of a few. The very complex and disturbed morphology of NGC 4449 makes it an interesting galaxy for studies of the relationship between interactions and starbursts, and our detailed and spatially resolved analysis of its star formation history does indeed provide some hints on the connection between these two phenomena in this peculiar dwarf galaxy., Comment: 16 pages, 25 figures. Accepted for publication in the Astrophysical Journal

Published

2018

16. A study of two dwarf irregular galaxies with asymmetrical star formation distributions

Author

Hunter, Deidre A., Gallardo, Samavarti, Zhang, Hong-Xin, Adamo, Angela, Cook, David O., Oh, Se-Heon, Elmegreen, Bruce G., Kim, Hwihyun, Kahre, Lauren, Ubeda, Leonardo, Bright, Stacey N., Ryon, Jenna E., Fumagalli, Michele, Sacchi, Elena, Kennicutt, R. C., Tosi, Monica, Dale, Daniel A., Cignoni, Michele, Messa, Matteo, Grebel, Eva K., Gouliermis, Dimitrios M., Sabbi, Elena, Grasha, Kathryn, Gallagher III, John S., Calzetti, Daniela, and Lee, 1Gand Janice C.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Two dwarf irregular galaxies DDO 187 and NGC 3738 exhibit a striking pattern of star formation: intense star formation is taking place in a large region occupying roughly half of the inner part of the optical galaxy. We use data on the HI distribution and kinematics and stellar images and colors to examine the properties of the environment in the high star formation rate (HSF) halves of the galaxies in comparison with the low star formation rate (LSF) halves. We find that the pressure and gas density are higher on the HSF sides by 30-70%. In addition we find in both galaxies that the HI velocity fields exhibit significant deviations from ordered rotation and there are large regions of high velocity dispersion and multiple velocity components in the gas beyond the inner regions of the galaxies. The conditions in the HSF regions are likely the result of large-scale external processes affecting the internal environment of the galaxies and enabling the current star formation there., Comment: In press in ApJ

Published

2018

17. A Radio Continuum Study of Dwarf Galaxies: 6 cm imaging of Little Things

Author

Hindson, Luke, Kitchener, Ged, Brinks, Elias, Heesen, Volker, Westcott, Jonathan, Hunter, Deidre, Zhang, Hong-Xin, Rupen, Michael, and Rau, Urvashi

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

In this paper we examine to what extent the radio continuum can be used as an extinction free probe of star formation in dwarf galaxies. To that aim we observe $40$ nearby dwarf galaxies with the Very Large Array at 6 cm ($4$-$8$ GHz) in C-configuration. We obtained images with $3$-$8^{\prime\prime}$ resolution and noise levels of $3$-$15{\rm \,\mu Jy\,beam^{-1}}$. We detected emission associated with $22$ of the $40$ dwarf galaxies, $8$ of which are new detections. The general picture is that of an interstellar medium largely devoid of radio continuum emission, interspersed by isolated pockets of emission associated with star formation. We find an average thermal fraction of $\sim 50$-$70$% and an average magnetic field strength of $\sim 5$-$8\,{\rm \mu G}$, only slightly lower than that found in larger, spiral galaxies. At 100 pc scales, we find surprisingly high values for the average magnetic field strength of up to 50$\,{\rm \mu G}$. We find that dwarf galaxies follow the theoretical predictions of the radio continuum-star formation rate relation within regions of significant radio continuum emission but that the non-thermal radio continuum is suppressed relative to the star formation rate when considering the entire optical disk. We examine the far-infrared-star formation rate relation for our sample and find that the far-infrared is suppressed compared to the expected star formation rate. We discuss explanations for these observed relations and the impact of our findings on the radio continuum-far-infrared relation. We conclude that radio continuum emission at centimetre wavelengths has the promise of being a largely extinction-free star formation rate indicator. We find that star formation rates of gas rich, low mass galaxies can be estimated with an uncertainty of $\pm 0.2$ dex between the values of $2 \times 10^{-4}$ and $0.1 {\rm M_\odot\,yr^{-1}}$., Comment: 89 Pages, 52 figures, 8 tables

Published

2018

18. The Nature of Turbulence in the LITTLE THINGS Dwarf Irregular Galaxies

Author

Maier, Erin, Elmegreen, Bruce G., Hunter, Deidre A., Hollyday, Li-Hsin Chien Gigja, and Simpson, Caroline

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present probability density functions and higher order (skewness and kurtosis) analyses of the galaxy-wide and spatially-resolved HI column density distributions in the LITTLE THINGS sample of dwarf irregular galaxies. This analysis follows that of Burkhart et al. (2010) for the Small Magellanic Cloud. About 60% of our sample have galaxy-wide values of kurtosis that are similar to that found for the Small Magellanic Cloud, with a range up to much higher values, and kurtosis increases with integrated star formation rate. Kurtosis and skewness were calculated for radial annuli and for a grid of 32 pixel X 32 pixel kernels across each galaxy. For most galaxies, kurtosis correlates with skewness. For about half of the galaxies, there is a trend of increasing kurtosis with radius. The range of kurtosis and skewness values is modeled by small variations in the Mach number close to the sonic limit and by conversion of HI to molecules at high column density. The maximum HI column densities decrease with increasing radius in a way that suggests molecules are forming in the weak field limit, where H_2 formation balances photodissociation in optically thin gas at the edges of clouds., Comment: AJ, in press

Published

2017

19. Probing the Relationship Between Early Star Formation and CO in the Dwarf Irregular Galaxy WLM with JWST

Author

Archer, Haylee N., primary, Hunter, Deidre A., additional, Elmegreen, Bruce G., additional, Rubio, Monica, additional, Cigan, Phil, additional, Windhorst, Rogier A., additional, Cortés, Juan R., additional, and Jansen, Rolf A., additional

Published

2024

20. Mass-to-Light versus Color Relations for Dwarf Irregular Galaxies

Author

Herrmann, Kimberly A., Hunter, Deidre A., Zhang, Hong-Xin, and Elmegreen, Bruce G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We have determined new relations between $UBV$ colors and mass-to-light ratios ($M/L$) for dwarf irregular (dIrr) galaxies, as well as for transformed $g^\prime - r^\prime$. These $M/L$ to color relations (MLCRs) are based on stellar mass density profiles determined for 34 LITTLE THINGS dwarfs from spectral energy distribution fitting to multi-wavelength surface photometry in passbands from the FUV to the NIR. These relations can be used to determine stellar masses in dIrr galaxies for situations where other determinations of stellar mass are not possible. Our MLCRs are shallower than comparable MLCRs in the literature determined for spiral galaxies. We divided our dwarf data into four metallicity bins and found indications of a steepening of the MLCR with increased oxygen abundance, perhaps due to more line blanketing occurring at higher metallicity., Comment: 5 pages, 4 figures, 2 tables

Published

2016

21. Outskirts of Nearby Disk Galaxies: Star Formation and Stellar Populations

Author

Elmegreen, Bruce G. and Hunter, Deidre A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The properties and star formation processes in the far-outer disks of nearby spiral and dwarf irregular galaxies are reviewed. The origin and structure of the generally exponential profiles in stellar disks is considered to result from cosmological infall combined with a non-linear star formation law and a history of stellar migration and scattering from spirals, bars, and random collisions with interstellar clouds. In both spirals and dwarfs, the far-outer disks tend to be older, redder and thicker than the inner disks, with the overall radial profiles suggesting inside-out star formation plus stellar scattering in spirals, and outside-in star formation with a possible contribution from scattering in dwarfs. Dwarf irregulars and the far-outer parts of spirals both tend to be gas dominated, and the gas radial profile is often non-exponential although still decreasing with radius. The ratio of H-alpha to far-UV flux tends to decrease with lower surface brightness in these regions, suggesting either a change in the initial stellar mass function or the sampling of that function, or a possible loss of H-alpha photons., Comment: 20 pages, 8 figures, Invited review, Book chapter in "Outskirts of Galaxies", Eds. J. H. Knapen, J. C. Lee and A. Gil de Paz, Astrophysics and Space Science Library, Springer, in press

Published

2016

22. Turbulence and Star Formation in a Sample of Spiral Galaxies

Author

Maier, Erin, Chien, Li-Hsin, and Hunter, Deidre A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We investigate turbulent gas motions in spiral galaxies and their importance to star formation in far outer disks, where the column density is typically far below the critical value for spontaneous gravitational collapse. Following the methods of Burkhart et al. (2010) on the Small Magellanic Cloud, we use the third and fourth statistical moments, as indicators of structures caused by turbulence, to examine the neutral hydrogen (HI) column density of a sample of spiral galaxies selected from The HI Nearby Galaxy Survey (THINGS, Walter et al. 2008). We apply the statistical moments in three different methods- the galaxy as a whole, divided into a function of radii and then into grids. We create individual grid maps of kurtosis for each galaxy. To investigate the relation between these moments and star formation, we compare these maps with their far-ultraviolet images taken by the Galaxy Evolution Explorer (GALEX) satellite. We find that the moments are largely uniform across the galaxies, in which the variation does not appear to trace any star forming regions. This may, however, be due to the spatial resolution of our analysis, which could potentially limit the scale of turbulent motions that we are sensitive to greater than ~700 pc. From comparison between the moments themselves, we find that the gas motions in our sampled galaxies are largely supersonic. This analysis also shows that Burkhart et al. (2010)'s methods may be applied not just to dwarf galaxies but also to normal spiral galaxies., Comment: 15 pages, 5 figures, accepted in Astronomy Journal

Published

2016

23. Surface Brightness Profiles of Dwarf Galaxies: II. Color Trends and Mass Profiles

Author

Herrmann, Kimberly A., Hunter, Deidre A., and Elmegreen, Bruce G.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

In this second paper of a series, we explore the B-V, U-B, and FUV-NUV radial color trends from a multi-wavelength sample of 141 dwarf disk galaxies. Like spirals, dwarf galaxies have three types of radial surface brightness profiles: (I) single exponential throughout the observed extent (the minority), (II) down-bending (the majority), and (III) up-bending. We find that colors of (1) Type I dwarfs generally become redder with increasing radius unlike spirals that have a blueing trend that flattens beyond ~1.5 disk scale lengths, (2) Type II dwarfs come in six different "flavors," one of which mimics the "U" shape of spirals, and (3) Type III dwarfs have a stretched "S" shape where central colors are flattish, become steeply redder to the surface brightness break, then remain roughly constant beyond, similar to spiral TypeIII color profiles, but without the central outward bluing. Faint (-9 > M_B > -14) Type II dwarfs tend to have continuously red or "U" shaped colors and steeper color slopes than bright (-14 > M_B > -19) Type II dwarfs, which additionally have colors that become bluer or remain constant with increasing radius. Sm dwarfs and BCDs tend to have at least some blue and red radial color trend, respectively. Additionally, we determine stellar surface mass density (Sigma) profiles and use them to show that the break in Sigma generally remains in Type II dwarfs (unlike Type II spirals) but generally disappears in Type III dwarfs (unlike Type III spirals). Moreover, the break in Sigma is strong, intermediate, and weak in faint dwarfs, bright dwarfs, and spirals, respectively, indicating that Sigma may straighten with increasing galaxy mass. Lastly, the average stellar surface mass density at the surface brightness break is roughly 1-2 M_S/pc^2 for Type II dwarfs but higher at 5.9 M_S/pc^2 or 27 M_S/pc^2 for Type III BCDs and dIms, respectively., Comment: 18 pages, 11 figures, 4 tables

Published

2016

24. Dense cloud cores revealed by CO in the low metallicity dwarf galaxy WLM

Author

Rubio, Monica, Elmegreen, Bruce G., Hunter, Deidre A., Brinks, Elias, Cortes, Juan R., and Cigan, Phil

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Understanding stellar birth requires observations of the clouds in which they form. These clouds are dense and self-gravitating, and in all existing observations, they are molecular with H_2 the dominant species and CO the best available tracer. When the abundances of carbon and oxygen are low compared to hydrogen, and the opacity from dust is also low, as in primeval galaxies and local dwarf irregular galaxies, CO forms slowly and is easily destroyed, so it is difficult for it to accumulate inside dense clouds. Here we report interferometric observations of CO clouds in the local group dwarf irregular galaxy Wolf-Lundmark-Melotte (WLM), which has a metallicity that is 13% of the solar value and 50% lower than the previous CO detection threshold. The clouds are tiny compared to the surrounding atomic and H_2 envelopes, but they have typical densities and column densities for CO clouds in the Milky Way. The normal CO density explains why star clusters forming in dwarf irregulars have similar densities to star clusters in giant spiral galaxies. The low cloud masses suggest that these clusters will also be low mass, unless some galaxy-scale compression occurs, such as an impact from a cosmic cloud or other galaxy. If the massive metal-poor globular clusters in the halo of the Milky Way formed in dwarf galaxies, as is commonly believed, then they were probably triggered by such an impact., Comment: 10 pages, 3 figures

Published

2016

25. Young star clusters in the outer disks of LITTLE THINGS dwarf irregular galaxies

Author

Hunter, Deidre A., Elmegreen, Bruce G., and Gehret, Elizabeth

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We examine FUV images of the LITTLE THINGS sample of nearby dwarf irregular (dIrr) and Blue Compact Dwarf (BCD) galaxies to identify distinct young regions in their far outer disks. We use these data, obtained with the Galaxy Evolution Explorer satellite, to determine the furthest radius at which in situ star formation can currently be identified. The FUV knots are found at distances from the center of the galaxies of 1 to 8 disk scale lengths and have ages of <20 Myrs and masses of 20 to 1E5 Msolar. The presence of young clusters and OB associations in the outer disks of dwarf galaxies shows that dIrrs do have star formation taking place there in spite of the extreme nature of the environment. Most regions are found where the HI surface density is ~1 Msolar per pc2, although both the HI and dispersed old stars go out much further. This limiting density suggests a cutoff in the ability to form distinct OB associations and perhaps even stars. We compare the star formation rates in the FUV regions to the average rates expected at their radii and beyond from the observed gas, using the conventional correlation for gas-rich regions. The localized rates are typically 10% of the expected average rates for the outer disks. Either star formation in dIrrs at surface densities <1 Msolar per pc2 occurs without forming distinct associations, or the Kennicutt-Schmidt relation over-predicts the rate beyond this point. In the latter case, the stellar disks in the far-outer parts of dIrrs result from scattering of stars from the inner disk., Comment: To be published in AJ

Published

2016

26. Herschel Spectroscopic Observations of LITTLE THINGS Dwarf Galaxies

Author

Cigan, Phil, Young, Lisa, Cormier, Diane, Lebouteiller, Vianney, Madden, Suzanne, Hunter, Deidre, Brinks, Elias, Elmegreen, Bruce, Schruba, Andreas, Heesen, Volker, and Team, the LITTLE THINGS

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present far-infrared spectral line observations of five galaxies from the LITTLE THINGS sample: DDO 69, DDO 70, DDO 75, DDO 155, and WLM. While most studies of dwarfs focus on bright systems or starbursts due to observational constraints, our data extend the observed parameter space into the regime of low surface brightness dwarf galaxies with low metallicities and moderate star formation rates. Our targets were observed with Herschel at the [CII] 158um, [OI] 63um, [OIII] 88um, and NII 122um emission lines using the PACS Spectrometer. These high-resolution maps allow us for the first time to study the far-infrared properties of these systems on the scales of larger star-forming complexes. The spatial resolution in our maps, in combination with star formation tracers, allows us to identify separate PDRs in some of the regions we observed. Our systems have widespread [CII] emission that is bright relative to continuum, averaging near 0.5% of the total infrared budget - higher than in solar-metallicity galaxies of other types. [NII] is weak, suggesting that the [CII] emission in our galaxies comes mostly from PDRs instead of the diffuse ionized ISM. These systems exhibit efficient cooling at low dust temperatures, as shown by ([OI]+[CII])/TIR in relation to 60um/100um, and low [OI]/[CII] ratios which indicate that [CII] is the dominant coolant of the ISM. We observe [OIII]/[CII] ratios in our galaxies that are lower than those published for other dwarfs, but similar to levels noted in spirals., Comment: Accepted for publication in The Astronomical Journal

Published

2015

27. Hierarchical Star Formation across the ring galaxy NGC 6503

Author

Gouliermis, Dimitrios A., Thilker, David, Elmegreen, Bruce G., Elmegreen, Debra M., Calzetti, Daniela, Lee, Janice C., Adamo, Angela, Aloisi, Alessandra, Cignoni, Michele, Cook, David O., Dale, Daniel, Gallagher III, John S., Grasha, Kathryn, Grebel, Eva K., Davo, Artemio Herrero, Hunter, Deidre A., Johnson, Kelsey E., Kim, Hwihyun, Nair, Preethi, Nota, Antonella, Pellerin, Anne, Ryon, Jenna, Sabbi, Elena, Sacchi, Elena, Smith, Linda J., Tosi, Monica, Ubeda, Leonardo, and Whitmore, Brad

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present a detailed clustering analysis of the young stellar population across the star-forming ring galaxy NGC 6503, based on the deep HST photometry obtained with the Legacy ExtraGalactic UV Survey (LEGUS). We apply a contour-based map analysis technique and identify in the stellar surface density map 244 distinct star-forming structures at various levels of significance. These stellar complexes are found to be organized in a hierarchical fashion with 95% being members of three dominant super-structures located along the star-forming ring. The size distribution of the identified structures and the correlation between their radii and numbers of stellar members show power-law behaviors, as expected from scale-free processes. The self-similar distribution of young stars is further quantified from their autocorrelation function, with a fractal dimension of ~1.7 for length-scales between ~20 pc and 2.5 kpc. The young stellar radial distribution sets the extent of the star-forming ring at radial distances between 1 and 2.5 kpc. About 60% of the young stars belong to the detected stellar structures, while the remaining stars are distributed among the complexes, still inside the ring of the galaxy. The analysis of the time-dependent clustering of young populations shows a significant change from a more clustered to a more distributed behavior in a time-scale of ~60 Myr. The observed hierarchy in stellar clustering is consistent with star formation being regulated by turbulence across the ring. The rotational velocity difference between the edges of the ring suggests shear as the driving mechanism for this process. Our findings reveal the interesting case of an inner ring forming stars in a hierarchical fashion., Comment: MNRAS Accepted 2015 June 11; in original form 2015 May 04 (21 pages, 21 figures, 4 tables)

Published

2015

28. The Shape of LITTLE THINGS Dwarf Galaxies DDO 46 and DDO 168: Understanding the stellar and gas kinematics

Author

Johnson, Megan C., Hunter, Deidre A., Wood, Sarah, Oh, Se-Heon, Zhang, Hong-Xin, Herrmann, Kimberly A., and Levine, Stephen E.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present the stellar and gas kinematics of DDO 46 and DDO 168 from the LITTLE THINGS survey and determine their respective Vmax/sigma_z,0 values. We used the KPNO's 4-meter telescope with the Echelle spectrograph as a long-slit spectrograph. We acquired spectra of DDO 168 along four position angles by placing the slit over the morphological major and minor axes and two intermediate position angles. However, due to poor weather conditions during our observing run for DDO 46, we were able to extract only one useful data point from the morphological major axis. We determined a central stellar velocity dispersion perpendicular to the disk, sigma_z,0, of 13.5+/-8 km/s for DDO 46 and of 10.7+/-2.9 km/s for DDO 168. We then derived the maximum rotation speed in both galaxies using the LITTLE THINGS HI data. We separated bulk motions from non-circular motions using a double Gaussian decomposition technique and applied a tilted-ring model to the bulk velocity field. We corrected the observed HI rotation speeds for asymmetric drift and found a maximum velocity, Vmax, of 77.4 +/- 3.7 and 67.4 +/- 4.0 km/s for DDO 46 and DDO 168, respectively. Thus, we derived a kinematic measure, Vmax/sigma_z,0, of 5.7 +/- 0.6 for DDO 46 and 6.3 +/- 0.3 for DDO 168. Comparing these values to ones determined for spiral galaxies, we find that DDO 46 and DDO 168 have Vmax/sigma_z,0 values indicative of thin disks, which is in contrast to minor-to-major axis ratio studies.

Published

2015

29. A Star Formation Law for Dwarf Irregular Galaxies

Author

Elmegreen, Bruce G. and Hunter, Deidre A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The radial profiles of gas, stars, and far ultraviolet radiation in 20 dwarf Irregular galaxies are converted to stability parameters and scale heights for a test of the importance of two-dimensional (2D) instabilities in promoting star formation. A detailed model of this instability involving gaseous and stellar fluids with self-consistent thicknesses and energy dissipation on a perturbation crossing time give the unstable growth rates. We find that all locations are effectively stable to 2D perturbations, mostly because the disks are thick. We then consider the average volume densities in the midplanes, evaluated from the observed HI surface densities and calculated scale heights. The radial profiles of the star formation rates are equal to about 1% of the HI surface densities divided by the free fall times at the average midplane densities. This 1% resembles the efficiency per unit free fall time commonly found in other cases. There is a further variation of this efficiency with radius in all of our galaxies, following the exponential disk with a scale length equal to about twice the stellar mass scale length. This additional variation is modeled by the molecular fraction in a diffuse medium using radiative transfer solutions for galaxies with the observed dimensions and properties of our sample. We conclude that star formation is activated by a combination of three-dimensional gaseous gravitational processes and molecule formation. Implications for outer disk structure and formation are discussed., Comment: 26 pages, 11 figures, accepted by ApJ

Published

2015

30. High-resolution mass models of dwarf galaxies from LITTLE THINGS

Author

Oh, Se-Heon, Hunter, Deidre A., Brinks, Elias, Elmegreen, Bruce G., Schruba, Andreas, Walter, Fabian, Rupen, Michael P., Young, Lisa M., Simpson, Caroline E., Johnson, Megan, Herrmann, Kimberly A., Ficut-Vicas, Dana, Cigan, Phil, Heesen, Volker, Ashley, Trisha, and Zhang, Hong-Xin

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present high-resolution rotation curves and mass models of 26 dwarf galaxies from LITTLE THINGS. LITTLE THINGS is a high-resolution Very Large Array HI survey for nearby dwarf galaxies in the local volume within 11 Mpc. The rotation curves of the sample galaxies derived in a homogeneous and consistent manner are combined with Spitzer archival 3.6 micron and ancillary optical U, B, and V images to construct mass models of the galaxies. We decompose the rotation curves in terms of the dynamical contributions by baryons and dark matter halos, and compare the latter with those of dwarf galaxies from THINGS as well as Lambda CDM SPH simulations in which the effect of baryonic feedback processes is included. Being generally consistent with THINGS and simulated dwarf galaxies, most of the LITTLE THINGS sample galaxies show a linear increase of the rotation curve in their inner regions, which gives shallower logarithmic inner slopes alpha of their dark matter density profiles. The mean value of the slopes of the 26 LITTLE THINGS dwarf galaxies is alpha =-0.32 +/- 0.24 which is in accordance with the previous results found for low surface brightness galaxies (alpha = -0.2 +/- 0.2) as well as the seven THINGS dwarf galaxies (alpha =-0.29 +/- 0.07). However, this significantly deviates from the cusp-like dark matter distribution predicted by dark-matter-only Lambda CDM simulations. Instead our results are more in line with the shallower slopes found in the Lambda CDM SPH simulations of dwarf galaxies in which the effect of baryonic feedback processes is included. In addition, we discuss the central dark matter distribution of DDO 210 whose stellar mass is relatively low in our sample to examine the scenario of inefficient supernova feedback in low mass dwarf galaxies predicted from recent Lambda SPH simulations of dwarf galaxies where central cusps still remain., Comment: 100 pages, 85 figures, Accepted for publication on AJ

Published

2015

31. The non-thermal superbubble in IC 10: the generation of cosmic ray electrons caught in the act

Author

Heesen, Volker, Brinks, Elias, Krause, Martin G. H., Harwood, Jeremy J., Rau, Urvashi, Rupen, Michael P., Hunter, Deidre A., Chyzy, Krzysztof T., and Kitchener, Ged

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Superbubbles are crucial for stellar feedback, with supposedly high (of the order of 10 per cent) thermalization rates. We combined multiband radio continuum observations from the Very Large Array (VLA) with Effelsberg data to study the non-thermal superbubble (NSB) in IC 10, a starburst dwarf irregular galaxy in the Local Group. Thermal emission was subtracted using a combination of Balmer H$\alpha$ and VLA 32 GHz continuum maps. The bubble's non-thermal spectrum between 1.5 and 8.8 GHz displays curvature and can be well fitted with a standard model of an ageing cosmic ray electron population. With a derived equipartition magnetic field strength of $44\pm 8 \rm\mu G$, and measuring the radiation energy density from Spitzer MIPS maps as $5\pm 1\times 10^{-11} \rm erg\, cm^{-3}$, we determine, based on the spectral curvature, a spectral age of the bubble of $1.0\pm 0.3 \rm Myr$. Analysis of the LITTLE THINGS HI data cube shows an expanding HI hole with 100 pc diameter and a dynamical age of $3.8\pm 0.3 \rm Myr$, centred to within 16 pc on IC 10 X-1, a massive stellar mass black hole ($M > 23 M_\odot$). The results are consistent with the expected evolution for a superbubble with a few massive stars, where a very energetic event like a Type Ic supernova/hypernova has taken place about 1 Myr ago. We discuss alternatives to this interpretation., Comment: MNRAS 447, L1-L5. 6 pages, 4 figures, 1 table. Replaced to match published version. Added one reference

Published

2014

32. Shrinking Galaxy Disks with Fountain-Driven Accretion from the Halo

Author

Elmegreen, Bruce G., Struck, Curtis, and Hunter, Deidre A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Star formation in most galaxies requires cosmic gas accretion because the gas consumption time is short compared to the Hubble time. This accretion presumably comes from a combination of infalling satellite debris, cold flows, and condensation of hot halo gas at the cool disk interface, perhaps aided by a galactic fountain. In general, the accretion will have a different specific angular momentum than the part of the disk that receives it, even if the gas comes from the nearby halo. Then the gas disk expands or shrinks over time. Here we show that condensation of halo gas at a rate proportional to the star formation rate in the fountain model will preserve an initial shape, such as an exponential, with a shrinking scale length, leaving behind a stellar disk with a slightly steeper profile of younger stars near the center. This process is slow for most galaxies, producing imperceptible radial speeds, and it may be dominated by other torques, but it could be important for Blue Compact Dwarfs, which tend to have large, irregular gas reservoirs and steep blue profiles in their inner stellar disks., Comment: 17 pages with 3 figures, ApJ in press

Published

2014

33. Hierarchical Star Formation in Nearby LEGUS Galaxies

Author

Elmegreen, Debra Meloy, Elmegreen, Bruce G., Adamo, Angela, Aloisi, Alessandra, Andrews, Jennifer, Annibali, Francesca, Bright, Stacey N., Calzetti, Daniela, Cignoni, Michele, Evans, Aaron S., Gallagher III, John S., Gouliermis, Dimitrios A., Grebel, Eva K., Hunter, Deidre A., Johnson, Kelsey, Kim, Hwi, Lee, Janice, Sabbi, Elena, Smith, Linda, Thilker, David, Tosi, Monica, and Ubeda, Leonardo

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Hierarchical structure in ultraviolet images of 12 late-type LEGUS galaxies is studied by determining the numbers and fluxes of nested regions as a function of size from ~1 to ~200 pc, and the number as a function of flux. Two starburst dwarfs, NGC 1705 and NGC 5253, have steeper number-size and flux-size distributions than the others, indicating high fractions of the projected areas filled with star formation. Nine subregions in 7 galaxies have similarly steep number-size slopes, even when the whole galaxies have shallower slopes. The results suggest that hierarchically structured star-forming regions several hundred parsecs or larger represent common unit structures. Small galaxies dominated by only a few of these units tend to be starbursts. The self-similarity of young stellar structures down to parsec scales suggests that star clusters form in the densest parts of a turbulent medium that also forms loose stellar groupings on larger scales. The presence of super star clusters in two of our starburst dwarfs would follow from the observed structure if cloud and stellar subregions more readily coalesce when self-gravity in the unit cell contributes more to the total gravitational potential., Comment: 9 pages, 4 figures, accepted for ApJL

Published

2014

34. Carbon Monoxide Clouds at Low-Metallicity in the WLM Galaxy

Author

Elmegreen, Bruce G., Rubio, Monica, Hunter, Deidre A., Verdugo, Celia, Brinks, Elias, and Schruba, Andreas

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Carbon monoxide (CO) is the primary tracer for interstellar clouds where stars form, yet CO has never been detected in galaxies with an Oxygen abundance relative to Hydrogen less than 20% of solar, even though such low metallicity galaxies often form stars. This raises the question of whether stars can form in dense gas without the usual molecules, cooling to the required near-zero temperatures by atomic transitions and dust radiation rather than molecular line emission (Krumholz 2012), and it highlights uncertainties about star formation in the early universe, when the metallicity was generally low. Here we report the detection of CO in two regions of a local dwarf irregular galaxy, WLM, where the metallicity is 13% of the solar value (Lee et al. 2005, Asplund et al. 2009). New sub-millimeter observations and archival far-infrared observations are used to estimate the cloud masses, which are both slightly larger than 10^5 Msun. The clouds have produced stars at a rate per molecule equal to 10% of that in the local Orion Nebula cloud. The CO fraction of the molecular gas is also low, about 3% of the Milky Way value. These results suggest that both star-forming cores and CO molecules become increasingly rare in H_2 clouds as the metallicity decreases in small galaxies., Comment: 9 pages, 3 tables, 1 figure

Published

2013

35. Surface Brightness Profiles of Dwarf Galaxies: I. Profiles and Statistics

Author

Herrmann, Kimberly A., Hunter, Deidre A., and Elmegreen, Bruce G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Radial surface brightness profiles of spiral galaxies are classified into three types: (I) single exponential, or the light falls off with one exponential to a break before falling off (II) more steeply, or (III) less steeply. Profile breaks are also found in dwarf disks, but some dwarf Type IIs are flat or increasing out to a break before falling off. Here we re-examine the stellar disk profiles of 141 dwarfs: 96 dwarf irregulars (dIms), 26 Blue Compact Dwarfs (BCDs), and 19 Magellanic-type spirals (Sms). We fit single, double, or even triple exponential profiles in up to 11 passbands: GALEX FUV and NUV, ground-based UBV JHK and H{\alpha}, and Spitzer 3.6 and 4.5 {\mu}m. We find that more luminous galaxies have brighter centers, larger inner and outer scale lengths, and break at larger radii; dwarf trends with M_B extend to spirals. However, the V-band break surface brightness is independent of break type, M_B, and Hubble type. Dwarf Type II and III profiles fall off similarly beyond the breaks but have different interiors and IIs break ~twice as far as IIIs. Outer Type II and III scale lengths may have weak trends with wavelength, but pure Type II inner scale lengths clearly decrease from the FUV to visible bands whereas Type III inner scale lengths increase with redder bands. This suggests the influence of different star formation histories on profile type, but nonetheless the break location is approximately the same in all passbands. Dwarfs continue trends between profile and Hubble types such that later-type galaxies have more Type II but fewer Type I and III profiles than early-type spirals. BCDs and Sms are over-represented as Types III and II, respectively, compared to dIms., Comment: 25 pages, 18 figures, 14 tables, accepted to AJ, part of the LITTLE THINGS AJ compilation

Published

2013

36. Star Formation in Two Luminous Spiral Galaxies

Author

Hunter, Deidre A., Elmegreen, Bruce G., Rubin, Vera C., Ashburn, Allison, Wright, Teresa, Jozsa, Gyula I. G., and Struve, Christian

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We have examined star formation in two very luminous (M_V=-22 to -23) Sc-type spiral galaxies, NGC 801 and UGC 2885, using ultra-deep Halpha images. We combine these with UBV and 2MASS JHK images and HI maps to explore the star formation characteristics of disk galaxies at high luminosity. Halpha traces star formation in these galaxies to 4-6 disk scale lengths, but the lack of detection of Halpha further out is likely due to loss of Lyman continuum photons. Considering gravitational instabilities alone, we find that the gas and stars in the outer regions are marginally stable in an average sense, but considering dissipative gas and radial and azimuthal forcing, the outer regions are marginally unstable to form spiral arms. Star formation is taking place in spiral arms, which are regions of locally higher gas densities. Furthermore, we have traced smooth exponential stellar disks over 3-orders of magnitude and 4-6 disk scale lengths, in spite of a highly variable gravitational instability parameter. Thus, gravitational instability thresholds do not seem relevant to the stellar disk. One possibility for creating an exponential disk is that the molecular cloud densities and star formation rates have exponential profiles and this forces the stellar disk to build up such a profile. Another possibility is that the stellar disk is continuously adjusted to an exponential shape regardless of the star formation profile, for example through global dynamical process that scatter stars. However, such scattering processes are only known to operate in spiral systems, in which case they cannot explain the same dilemma of smooth exponential disks observed in dwarf irregular galaxies., Comment: To be published in AJ

Published

2013

37. Ongoing Massive Star Formation in NGC 604

Author

Martínez-Galarza, Juan R., Hunter, Deidre, Groves, Brent, and Brandl, Bernhard

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

NGC 604 is the second most massive H II region in the Local Group, thus an important laboratory for massive star formation. Using a combination of observational and analytical tools that include Spitzer spectroscopy, Herschel photometry, Chandra imaging, and Bayesian Spectral Energy Distribution fitting, we investigate the physical conditions in NGC 604, and quantify the amount of massive star formation currently taking place. We derive an average age of 4 +/- 1 Myr and a total stellar mass of 1.6 (+1.6)(-1.0) x 10^5 M_sun for the entire region, in agreement with previous optical studies. Across the region we find an effect of the X-ray field on both the abundance of aromatic molecules and the [Si II] emission. Within NGC 604 we identify several individual bright infrared sources with diameters of about 15 pc and luminosity weighted masses between 10^3 M_sun and 10^4 M_sun. Their spectral properties indicate that some of these sources are embedded clusters in process of formation, which together account for ~8% of the total stellar mass in the NGC 604 system. The variations of the radiation field strength across NGC 604 are consistent with a sequential star formation scenario, with at least two bursts in the last few million years. Our results indicate that massive star formation in NGC 604 is still ongoing, likely triggered by the earlier bursts., Comment: 16 pages, 12 figures, accepted for publication in ApJ

Published

2012

38. The Stellar and Gas Kinematics of the LITTLE THINGS Dwarf Irregular Galaxy NGC 1569

Author

Johnson, Megan, Hunter, Deidre A., Oh, Se-Heon, Zhang, Hong-Xin, Elmegreen, Bruce, Brinks, Elias, Tollerud, Erik, and Herrmann, Kimberly

Subjects

Astrophysics - Cosmology and Extragalactic Astrophysics, Astrophysics - Galaxy Astrophysics

Abstract

In order to understand the formation and evolution of dIm galaxies, one needs to understand their three-dimensional structure. We present measurements of the stellar velocity dispersion in NGC 1569, a nearby post-starburst dIm galaxy. The stellar vertical velocity dispersion, $\sigma_{\rm z}$, coupled with the maximum rotational velocity derived from \ion{H}{1} observations, $V_{\rm max}$, gives a measure of how kinematically hot the galaxy is, and, therefore, indicates its structure. We conclude that the stars in NGC 1569 are in a thick disk with a $V_{\rm max} / \sigma_{\rm z}$ = 2.4 $\pm$ 0.7. In addition to the structure, we analyze the ionized gas kinematics from \ion{O}{3} observations along the morphological major axis. These data show evidence for outflow from the inner starburst region and a potential expanding shell near supermassive star cluster (SSC) A. When compared to the stellar kinematics, the velocity dispersion of the stars increase in the region of SSC A supporting the hypothesis of an expanding shell. The stellar kinematics closely follow the motion of the gas. Analysis of high resolution \ion{H}{1} data clearly reveals the presence of an \ion{H}{1} cloud that appears to be impacting the eastern edge of NGC 1569. Also, an ultra-dense \ion{H}{1} cloud can be seen extending to the west of the impacting \ion{H}{1} cloud. This dense cloud is likely the remains of a dense \ion{H}{1} bridge that extended through what is now the central starburst area. The impacting \ion{H}{1} cloud was the catalyst for the starburst, thus turning the dense gas into stars over a short timescale, $\sim$ 1 Gyr. We performed a careful study of the spectral energy distribution using infrared, optical, and ultraviolet photometry producing a state-of-the-art mass model for the stellar disk. This mass modeling shows that stars dominate the gravitational potential in the inner 1 kpc., Comment: 49 pages, 25 figures, accepted in AJ

Published

2012

39. Little Things

Author

Hunter, Deidre A., Ficut-Vicas, Dana, Ashley, Trisha, Brinks, Elias, Cigan, Phil, Elmegreen, Bruce G., Heesen, Volker, Herrmann, Kimberly A., Johnson, Megan, Se-Heon, Rupen, Michael P., Schruba, Andreas, Simpson, Caroline E., Walter, Fabian, Westpfahl, David J., Young, Lisa M., and Zhang, Hong-Xin

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present LITTLE THINGS (Local Irregulars That Trace Luminosity Extremes, The HI Nearby Galaxy Survey) that is aimed at determining what drives star formation in dwarf galaxies. This is a multi-wavelength survey of 37 Dwarf Irregular and 4 Blue Compact Dwarf galaxies that is centered around HI-line data obtained with the National Radio Astronomy Observatory (NRAO) Very Large Array (VLA). The HI-line data are characterized by high sensitivity (less than 1.1 mJy/beam per channel), high spectral resolution (less than or equal to 2.6 km/s), and high angular resolution (~6 arcseconds. The LITTLE THINGS sample contains dwarf galaxies that are relatively nearby (less than or equal to 10.3 Mpc; 6 arcseconds is less than or equal to 300 pc), that were known to contain atomic hydrogen, the fuel for star formation, and that cover a large range in dwarf galactic properties. We describe our VLA data acquisition, calibration, and mapping procedures, as well as HI map characteristics, and show channel maps, moment maps, velocity-flux profiles, and surface gas density profiles. In addition to the HI data we have GALEX UV and ground-based UBV and Halpha images for most of the galaxies, and JHK images for some. Spitzer mid-IR images are available for many of the galaxies as well. These data sets are available on-line., Comment: In press in AJ

Published

2012

40. HI Power Spectra and the Turbulent ISM of Dwarf Irregular Galaxies

Author

Zhang, Hong-Xin, Hunter, Deidre A., and Elmegreen, Bruce G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

HI spatial power spectra (PS) were determined for a sample of 24 nearby dwarf irregular galaxies selected from the LITTLE THINGS (Local Irregulars That Trace Luminosity Extremes - The HI Nearby Galaxy Survey) sample. The two-dimensional (2D) power spectral indices asymptotically become a constant for each galaxy when a significant part of the line profile is integrated. For narrow channel maps, the PS become shallower as the channel width decreases, and this shallowing trend continues to our single channel maps. This implies that even the highest velocity resolution of 1.8 km/s is not smaller than the thermal dispersion of the coolest, widespread HI component. The one-dimensional PS of azimuthal profiles at different radii suggest that the shallower PS for narrower channel width is mainly contributed by the inner disks, which indicates that the inner disks have proportionally more cooler HI than the outer disks. Galaxies with lower luminosity (M_B > -14.5 mag) and star formation rate (SFR, log(SFR (M\odot/yr)) < -2.1) tend to have steeper PS, which implies that the HI line-of-sight depths can be comparable with the radial length scales in low mass galaxies. A lack of a correlation between the inertial-range spectral indices and SFR surface density implies that either non-stellar power sources are playing a fundamental role in driving the interstellar medium (ISM) turbulent structure, or the nonlinear development of turbulent structures has little to do with the driving sources., Comment: 16 pages, 9 figures, 2 tables. Accepted by ApJ

Published

2012

41. In-spiraling Clumps in Blue Compact Dwarf Galaxies

Author

Elmegreen, Bruce G., Zhang, Hongxin, and Hunter, Deidre

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Giant star-formation clumps in dwarf irregular galaxies can have masses exceeding a few percent of the galaxy mass enclosed inside their orbital radii. They can produce sufficient torques on dark matter halo particles, halo stars, and the surrounding disk to lose their angular momentum and spiral into the central region in 1 Gyr. Pairs of giant clumps with similarly large relative masses can interact and exchange angular momentum to the same degree. The result of this angular momentum loss is a growing central concentration of old stars, gas, and star formation that can produce a long-lived starburst in the inner region, identified with the BCD phase. This central concentration is proposed to be analogous to the bulge in a young spiral galaxy. Observations of star complexes in five local BCDs confirm the relatively large clump masses that are expected for this process. The observed clumps also seem to contain old field stars, even after background light subtraction, in which case the clumps may be long-lived. The two examples with clumps closest to the center have the largest relative clump masses and the greatest contributions from old stars. An additional indication that the dense central regions of BCDs are like bulges is the high ratio of the inner disk scale height to the scale length, which is comparable to 1 for four of the galaxies., Comment: 15 pages, 2 figures, accepted by ApJ 1/5/2012

Published

2012

42. Outside-in Shrinking of the Star-forming Disk of Dwarf Irregular Galaxies

Author

Zhang, Hong-Xin, Hunter, Deidre A., Elmegreen, Bruce G., Gao, Yu, and Schruba, Andreas

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We have studied multi-band surface brightness profiles of a representative sample of 34 nearby dwarf irregular galaxies (dIrrs). Our data include GALEX FUV/NUV, UBV, H\alpha, and Spitzer 3.6 \mum images. These galaxies constitute the majority of the LITTLE THINGS survey. By modeling the azimuthal averages of the spectral energy distributions with a complete library of star formation (SF) histories, we derived the stellar mass surface density distributions and the SF rate averaged over three different timescales: the recent 0.1 Gyr, 1 Gyr and a Hubble time. We find that, for \sim 80% (27 galaxies) of our sample galaxies, radial profiles (at least in the outer part) at shorter wavelengths have shorter disk scale lengths than those at longer wavelengths. This indicates that the star-forming disk has been shrinking. In addition, the radial distributions of the stellar mass surface density are well described as piece-wise exponential profiles, and \sim 80% of the galaxies have steeper mass profiles in the outer disk than in the inner region. The steep radial decline of SF rate in the outer parts compared to that in the inner disks gives a natural explanation for the down-bending stellar mass surface density profiles. Within the inner disks, our sample galaxies on average have constant ratios of recent SF rate to stellar mass with radius. Nevertheless, \sim 35% (12 galaxies, among which 7 have baryonic mass < 10^8 M\odot) of the sample exhibit negative slopes across the observed disk, which is in contrast with the "inside-out" disk growth scenario suggested for luminous spiral galaxies. The tendency of SF to become concentrated toward the inner disks in low mass dIrrs is interpreted as a result of their susceptibility to environmental effects and regulation through stellar feedback., Comment: 40 pages. The Astronomical Journal, in press

Published

2011

43. Mapping the Extended HI Distribution of Three Dwarf Galaxies

Author

Hunter, Deidre A., Zahedy, Fakhri, Bowsher, Emily C., Wilcots, Eric M., Kepley, Amanda A., and Gaal, Veronika

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present large field HI-line emission maps obtained with the single-dish Green Bank Telescope centered on the dwarf irregular galaxies Sextans A, NGC 2366, and WLM. We do not detect the extended skirts of emission associated with the galaxies that were reported from Effelsberg observations (Huchtmeier et al. 1981). The ratio of HI at 10^19 atoms cm^-2 to optical extents of these galaxies are instead 2--3, which is normal for this type of galaxy. There is no evidence for a truncation in the HI distribution >/=10^19 atoms cm^-2., Comment: To be published in AJ

Published

2011

44. The Outer Disks of Dwarf Irregular Galaxies

Author

Hunter, Deidre A., Elmegreen, Bruce G., Oh, Se-Heon, Anderson, Ed, Nordgren, Tyler E., Massey, Philip, Wilsey, Nick, and Riabokin, Malanka

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

To explore the properties of extreme outer stellar disks, we obtained ultra-deep V and GALEX UV images of 4 dwarf irregular galaxies and one Blue Compact Dwarf galaxy and ultra-deep B images of 3 of these. Our V-band surface photometry extends to 29.5 magnitudes arcsec^-2. We convert the FUV and V-band photometry, along with Halpha photometry, into radial star formation rate profiles that are sensitive to timescales from 10 Myrs to the lifetime of the galaxy. We also compare the stellar distributions, surface brightness profiles, and star formation rate profiles to HI-line emission maps, gas surface density profiles, and gas kinematics. Our data lead us to two general observations: First, the exponential disks in these irregular galaxies are extraordinarily regular. The stellar disks continue to decline exponentially as far as our measurements extend. In spite of lumpiness in the distribution of young stars and HI distributions and kinematics that have significant unordered motions, sporadic processes that have built the disks-star formation, radial movement of stars, and perhaps even perturbations from the outside-have, nevertheless, conspired to produce standard disk profiles. Second, there is a remarkable continuity of star formation throughout these disks over time. In four out of five of our galaxies the star formation rate in the outer disk measured from the FUV tracks that determined from the V-band, to within factors of 5, requiring star formation at a fairly steady rate over the galaxy's lifetime. Yet, the HI surface density profiles generally decline with radius more shallowly than the stellar light, and the gas is marginally gravitationally stable against collapse into clouds. Outer stellar disks are challenging our concepts of star formation and disk growth and provide a critical environment in which to understand processes that mold galaxy disks., Comment: AJ, in press

Published

2011

45. VII Zw 403: HI Structure in a Blue Compact Dwarf Galaxy

Author

Simpson, Caroline E., Hunter, Deidre A., Nordgren, Tyler E., Brinks, Elias, Elmegreen, Bruce G., Ashley, Trisha, Lynds, Roger, McIntyre, Vince J., O'Neil, Earl J., Östlin, Göran, Westpfahl, David J., and Wilcots, Eric M.

Subjects

Astrophysics - Galaxy Astrophysics

Abstract

We present optical (UBVJ), ultraviolet (FUV, NUV), and high resolution atomic hydrogen (HI) observations of the nearby blue compact dwarf (BCD), VII Zw 403. We find that VII Zw 403 has a relatively high HI mass-to-light ratio for a BCD. The rotation velocity is nominally 10-15 km/s, but rises to ~20 km/s after correction for the ~8-10 km/s random motions present in the gas. The velocity field is complex; including a variation in the position angle of the major axis going from the NE to the SW parts of the galaxy. Our high resolution HI maps reveal structure in the central gas, including a large, low-density HI depression or hole between the southern and northern halves of the galaxy, coincident with an unresolved x-ray source. Although interactions have been proposed as the triggering mechanism for the vigorous star formation occurring in BCDs, VII Zw 403 does not seem to have been tidally triggered by an external interaction, as we have found no nearby possible perturbers. It also doesn't appear to fall in the set of galaxies that exhibit a strong central mass density concentration, as its optical scale length is large in comparison to similar systems. However, there are some features that are compatible with an accretion event: optical/HI axis misalignment, a change in position angle of the kinematic axis, and a complex velocity field., Comment: 62 pages, 19 figures

Published

2011

46. On the Disruption of Star Clusters in a Hierarchical Interstellar Medium

Author

Elmegreen, Bruce G. and Hunter, Deidre A.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The distribution of the number of clusters as a function of mass M and age T suggests that clusters get eroded or dispersed in a regular way over time, such that the cluster number decreases inversely as an approximate power law with T within each fixed interval of M. This power law is inconsistent with standard dispersal mechanisms such as cluster evaporation and cloud collisions. In the conventional interpretation, it requires the unlikely situation where diverse mechanisms stitch together over time in a way that is independent of environment or M. Here we consider another model in which the large scale distribution of gas in each star-forming region plays an important role. We note that star clusters form with positional and temporal correlations in giant cloud complexes, and suggest that these complexes dominate the tidal force and collisional influence on a cluster during its first several hundred million years. Because the cloud complex density decreases regularly with position from the cluster birth site, the harassment and collision rates between the cluster and the cloud pieces decrease regularly with age as the cluster drifts. This decrease is typically a power law of the form required to explain the mass-age distribution. We reproduce this distribution for a variety of cases, including rapid disruption, slow erosion, combinations of these two, cluster-cloud collisions, cluster disruption by hierarchical disassembly, and partial cluster disruption. We also consider apparent cluster mass loss by fading below the surface brightness limit of a survey. In all cases, the observed log M - \log T diagram can be reproduced under reasonable assumptions., Comment: ApJ vol. 712, March 20, 2010, 33 pages 15 figures

Published

2010

47. GALEX Ultraviolet Imaging of Dwarf Galaxies and Star Formation

Author

Hunter, Deidre A., Elmegreen, Bruce G., and Ludka, Bonnie C.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present ultraviolet integrated and azimuthally-averaged surface photometric properties of a sample of 44 dIm, BCD, and Sm galaxies measured from archival NUV and FUV images obtained with GALEX. We compare the UV to Halpha and V-band properties and convert FUV, Halpha, and V-band luminosities into star formation rates (SFRs). We also model the star formation history from colors and compare the integrated SFRs and SFR profiles with radius for these methods. In most galaxies, the UV photometry extends beyond Halpha in radius, providing a better measure of the star formation activity in the outer disks. The Halpha appears to be lacking in the outer disk because of faintness in low density gas. The FUV and V-band profiles are continuous with radius, although they sometimes have a kink from a double exponential disk. There is no obvious difference in star formation properties between the inner and outer disks. No disk edges have been observed, even to stellar surface densities as low as 0.1 Msun/pc2 and star formation rates as low as 10^{-4} Msun/yr/kpc2. Galaxies with low HI to luminosity ratios have relatively low FUV compared to V-band emission in the outer parts, suggesting a cessation of star formation there. Galaxies with relatively high HI apparently have fluctuating star formation with a Gyr timescale., Comment: 28 pages, 22 figures, 7 tables, to be published in Astronomical Journal

Published

2009

48. Bright Ultraviolet Regions and Star Formation Characteristics in Nearby Dwarf Galaxies

Author

Melena, Nicholas W., Elmegreen, Bruce G., Hunter, Deidre A., and Zernow, Lea

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We compare star formation in the inner and outer disks of 11 dwarf Irregular galaxies (dIm) within 3.6 Mpc. The regions are identified on GALEX near-UV images, and modeled with UV, optical, and near-IR colors to determine masses and ages. A few galaxies have made 10^5-10^6 Msun complexes in a starburst phase, while others have not formed clusters in the last 50 Myrs. The maximum region mass correlates with the number of regions as expected from the size-of-sample effect. We find no radial gradients in region masses and ages, even beyond the realm of Halpha emission, although there is an exponential decrease in the luminosity density and number density of the regions with radius. Halpha is apparently lacking in the outer parts only because nebular emission around massive stars is too faint to see. The outermost regions for the 5 galaxies with HI data formed at average gas surface densities of 1.9-5.9 Msun/pc2. These low average densities imply either that local gas densities are high or sub-threshold star formation is possible. The distribution of regions on a log Mass - log age plot is is usually uniform along log age for equal intervals of log Mass. This uniformity results from either an individual region mass that varies as 1/age or a region disruption probability that varies as 1/age. A correlation between fading-corrected surface brightness and age suggests the former., Comment: Astronomical Journal, in press for November 2009. 34 pages, 18 figures, 5 tables

Published

2009

49. Dust and Gas as Seeds for Metal-Poor Star Formation

Author

Hunter, Deidre A.

Subjects

Astrophysics

Abstract

I address the issue of dust and gas as seeds for metal-poor star formation by reviewing what we know about star formation in nearby dwarf galaxies and its relationship to the gas and dust. I (try to) speculate on the extent to which processes in nearby galaxies mimic star formation in the early universe., Comment: To be published in "Low Metallicity Star Formation: From the First Stars to Dwarf Galaxies," Proceedings of IAU Symposium No. 255, eds. L.K. Hunt, S. Madden, & R. Schneider (Cambridge: Cambridge Univ Press)

Published

2008

50. A High-Resolution Study of the HI Content of Local Group Dwarf Irregular Galaxy WLM

Author

Kepley, Amanda, Wilcots, Eric, Hunter, Deidre, and Nordgren, Tyler

Subjects

Astrophysics

Abstract

Dwarf irregular galaxies are unique laboratories for studying the interaction between stars and the interstellar medium in low mass environments. We present the highest spatial resolution observations to date of the neutral hydrogen content of the Local Group dwarf irregular galaxy WLM. We find that WLM's neutral hydrogen distribution is typical for a galaxy of its type and size and derive an HI mass of 6.3e7 Msun for WLM. In addition, we derive an HI extent for WLM of 30 arcmin, which is much less than the 45 arcmin extent found by Huchtmeier, Seiradakis, and Materne (1981). We show that the broken ring of high column density neutral hydrogen surrounding the center of WLM is likely the result of star formation propagating out from the center of the galaxy. The young stars and Ha emission in this galaxy are mostly correlated with the high column density neutral hydrogen. The gap in the central ring is the result of star formation in that region using up, blowing out, or ionizing all of the neutral hydrogen. Like many late-type galaxies, WLM's velocity field is asymmetric with the approaching (northern) side appearing to be warped and a steeper velocity gradient for the approaching side than for the receding side in the inner region of the galaxy. We derive a dynamical mass for WLM of 2.16e9 Msun., Comment: 38 pages, 15 figures, 5 tables, accepted by AJ, high resolution version at http://www.astro.wisc.edu/~kepley/kepley_wlm.ps

Published

2007