Your search keyword '"Werk, Jessica K."' showing total 8 results

1. The Scatter Matters: Circumgalactic Metal Content in the Context of the $M-\sigma$ Relation

Author

Sanchez, N. Nicole, Werk, Jessica K., Christensen, Charlotte, Telford, O. Grace, Tremmel, Michael, Quinn, Thomas, Mead, Jennifer, Sharma, Ray, and Brooks, Alyson

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

The interaction between supermassive black hole (SMBH) feedback and the circumgalactic medium (CGM) continues to be an open question in galaxy evolution. In our study, we use SPH simulations to explore the impact of SMBH feedback on galactic metal retention and the motion of metals and gas into and through the CGM of L$_{*}$ galaxies. We examine 140 galaxies from the 25 Mpc cosmological volume, Romulus25, with stellar masses between 3 $\times$ 10$^{9}$ - 3 $\times$ 10$^{11}$ M$_{\odot}$. We measure the fraction of metals remaining in the ISM and CGM of each galaxy, and calculate the expected mass of its SMBH based on the $M-\sigma$ relation. The deviation of each SMBH from its expected mass, $\Delta M_{BH}$ is compared to the potential of its host via $\sigma$. We find that SMBHs with accreted mass above the empirical $M-\sigma$ relation are about 15\% more effective at removing metals from the ISM than under-massive SMBHs in star forming galaxies. Over-massive SMBHs suppress the overall star formation of their host galaxies and more effectively move metals from the ISM into the CGM. However, we see little evidence for the evacuation of gas from their halos, in contrast with other simulations. Finally, we predict that C IV column densities in the CGM of L$_{*}$ galaxies may depend on host galaxy SMBH mass. Our results show that the scatter in the low mass end of $M-\sigma$ relation may indicate how effective a SMBH is at the local redistribution of mass in its host galaxy., Comment: 16 pages, 14 figures, Submitted to ApJ

Published

2023

2. A Comprehensive Investigation of Metals in the Circumgalactic Medium of Nearby Dwarf Galaxies

Author

Zheng, Yong, Faerman, Yakov, Oppenheimer, Benjamin D., Putman, Mary E., McQuinn, Kristen B. W., Kirby, Evan N., Burchett, Joseph N., Telford, O. Grace, Werk, Jessica K., and Kim, Doyeon A.

Subjects

Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, Astrophysics - Astrophysics of Galaxies

Abstract

Dwarf galaxies are found to have lost most their metals via feedback processes; however, there still lacks consistent assessment on the retention rate of metals in their circumgalactic medium (CGM). Here we investigate the metal content in the CGM of 49 isolated dwarf galaxies with $M_*=10^{6.5-9.5}~M_\odot$ ($M_{\rm 200m}=10^{10.0-11.5}~M_\odot$) using HST/COS spectroscopy. While HI (Ly$\alpha$) is ubiquitously detected ($89\%$) within the CGM, we find low detection rates ($\approx5-21\%$) in CII, CIV, SiII, SiIII, and SiIV, largely consistent with literature values. Assuming these ions form in the cool ($T\approx10^4$ K) CGM with photoionization equilibrium, the observed HI and metal column density profiles can be best explained by an empirical model with low gas density and high volume filling factor. For a typical galaxy with $M_{\rm 200m}=10^{10.9}~M_\odot$ (median of the sample), our model predicts a cool gas mass of $M_{\rm CGM,cool}\sim10^{8.4}~M_\odot$, corresponding to $\sim2\%$ of the galaxy's baryonic budget. Assuming a metallicity of $0.3Z_\odot$, we estimate that the dwarf galaxy's cool CGM only harbors $\sim10\%$ of the metals ever produced, with the rest either in warmer phases yet to be detected, or transported to the intergalactic medium. We further examine the EAGLE simulation and show that HI and low ions may arise from a dense cool medium, while CIV from a diffuse warmer medium. Our work provides the community a uniform dataset on dwarf galaxies' CGM that combines our recent observations, additional archival data and literature compilation, which can be used to test various theoretical models of dwarf galaxies., Comment: Submitted to ApJ; comments welcome

Published

2023

3. The cool circumgalactic medium of low-redshift star-forming galaxies: I -- Empirical model and mean properties

Author

Faerman, Yakov and Werk, Jessica K.

Subjects

Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, Astrophysics - Astrophysics of Galaxies

Abstract

We present an analytic model for the cool, $T \approx 10^4$ K, circumgalactic medium (CGM), describing the gas distribution, thermal and ionization state. Our model assumes (total) pressure equilibrium with the ambient warm/hot CGM, photoionization by the metagalactic radiation field, and allows for non-thermal pressure support, parametrized by the ratio of thermal pressures, $\eta = P_{\rm hot,th}/P_{\rm cool,th}$. We apply the model to the COS-Halos data set and find that a nominal model with $\eta = 3$, gas distribution out to $r \approx 0.6 R_{\rm vir}$, and $M_{\rm cool} = 3 \times 10^9~{\rm M_{\odot}}$, corresponding to a volume filling fraction of $f_{\rm V,cool} \approx 1\%$, reproduces the mean measured column densities of HI and low/intermediate metal ions (CII, CIII, SiII, SiIII, MgII). Variation of $\pm 0.5$ dex in the non-thermal pressure or gas mass encompasses $\sim 2/3$ of the scatter between objects. Our nominal model underproduces the measured CIV and SiIV columns, and we show these can be reproduced with (i) a cool phase with $M_{\rm cool} \approx 10^{10}~{\rm M_{\odot}}$ and $\eta \approx 5$, or (ii) an additional component at intermediate temperatures, of cooling or mixing gas, with $M \approx 1.5 \times 10^{10}~{\rm M_{\odot}}$ and occupying $\sim 1/2$ of the total CGM volume. For cool gas with $f_{\rm V,cool} \approx 1\%$ we provide an upper limit on the cloud sizes, $R_{\rm cl} \lesssim 0.5$ kpc. Our results suggest that for the average galaxy CGM, the mass and non-thermal support in the cool phase are lower than estimated in previous works, and extreme scenarios for galactic feedback and non-thermal support may not be necessary. We estimate the rates of cool gas depletion and replenishment, and find accretion onto the galaxy can be entirely offset by condensation, outflows, and IGM accretion, allowing $\dot{M}_{\rm cool}\sim0$ over long timescales., Comment: Submitted to ApJ, 17 pages + appendices, comments welcome

Published

2023

4. The Scatter Matters: Circumgalactic Metal Content in the Context of the $M-σ$ Relation

Author

Sanchez, N. Nicole, Werk, Jessica K., Christensen, Charlotte, Telford, O. Grace, Tremmel, Michael, Quinn, Thomas, Mead, Jennifer, Sharma, Ray, and Brooks, Alyson

Subjects

Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences

Abstract

The interaction between supermassive black hole (SMBH) feedback and the circumgalactic medium (CGM) continues to be an open question in galaxy evolution. In our study, we use SPH simulations to explore the impact of SMBH feedback on galactic metal retention and the motion of metals and gas into and through the CGM of L$_{*}$ galaxies. We examine 140 galaxies from the 25 Mpc cosmological volume, Romulus25, with stellar masses between 3 $\times$ 10$^{9}$ - 3 $\times$ 10$^{11}$ M$_{\odot}$. We measure the fraction of metals remaining in the ISM and CGM of each galaxy, and calculate the expected mass of its SMBH based on the $M-σ$ relation. The deviation of each SMBH from its expected mass, $ΔM_{BH}$ is compared to the potential of its host via $σ$. We find that SMBHs with accreted mass above the empirical $M-σ$ relation are about 15\% more effective at removing metals from the ISM than under-massive SMBHs in star forming galaxies. Over-massive SMBHs suppress the overall star formation of their host galaxies and more effectively move metals from the ISM into the CGM. However, we see little evidence for the evacuation of gas from their halos, in contrast with other simulations. Finally, we predict that C IV column densities in the CGM of L$_{*}$ galaxies may depend on host galaxy SMBH mass. Our results show that the scatter in the low mass end of $M-σ$ relation may indicate how effective a SMBH is at the local redistribution of mass in its host galaxy., 16 pages, 14 figures, Submitted to ApJ

Published

2023

5. CGM$^2$ $+$ CASBaH: The Mass Dependence of H~I Ly$α$-Galaxy Clustering and the Extent of the CGM

Author

Wilde, Matthew C., Tchernyshyov, Kirill, Werk, Jessica K., Tripp, Todd M., Burchett, Joseph N., Prochaska, J. Xavier, Tejos, Nicolas, Lehner, Nicolas, Bordoloi, Rongmon, O'Meara, John M., Tumlinson, Jason, and Howk, J. Christopher

Subjects

Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences

Abstract

We combine datasets from the CGM$^{2}$ and CASBaH surveys to model a transition point, $R_{\rm cross}$, between circumgalactic and intergalactic media (CGM and IGM, respectively). In total, our data consist of 7244 galaxies at z < 0.5 with precisely measured spectroscopic redshifts, all having impact parameters of 0.01 - 20 comoving Mpc from 28 QSO sightlines with high-resolution UV spectra that cover H I Ly$α$. Our best-fitting model is an exclusionary two-component model that combines a 3D absorber-galaxy cross correlation function with a simple Gaussian profile at inner radii to represent the CGM. By design, this model gives rise to a determination of $R_{\rm cross}$ as a function of galaxy stellar mass, which can be interpreted as the boundary between the CGM and IGM. For galaxies with $10^8 \leq M_{\star}/M_{\odot} \leq 10^{10.5}$, we find that $R_{\rm cross}(M_{\star}) \approx 2 \pm 0.6 R_{\rm vir}$. Additionally, we find excellent agreement between $R_{\rm cross}(M_{\star})$ and the theoretically-determined splashback radius for galaxies in this mass range. Overall, our results favor models of galaxy evolution at z < 0.5 that distribute $T \approx 10^{4}$K gas to distances beyond the virial radius., Submitted to ApJ, 17 pages, 8 figures

Published

2023

6. The Bimodal Absorption System Imaging Campaign (BASIC) I. A Dual Population of Low-metallicity Absorbers at z $<1$

Author

Berg, Michelle A., Lehner, Nicolas, Howk, J. Christopher, O'Meara, John M., Schaye, Joop, Straka, Lorrie A., Cooksey, Kathy L., Tripp, Todd M., Prochaska, J. Xavier, Oppenheimer, Benjamin D., Johnson, Sean D., Muzahid, Sowgat, Bordoloi, Rongmon, Werk, Jessica K., Fox, Andrew J., Katz, Neal, Wendt, Martin, Peeples, Molly S., Ribaudo, Joseph, and Tumlinson, Jason

Subjects

Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences

Abstract

The bimodal absorption system imaging campaign (BASIC) aims to characterize the galaxy environments of a sample of 36 HI-selected partial Lyman limit systems (pLLSs) and Lyman limit systems (LLSs) in 23 QSO fields at $z \lesssim 1$. These pLLSs/LLSs provide a unique sample of absorbers with unbiased and well-constrained metallicities, allowing us to explore the origins of metal-rich and low-metallicity circumgalactic medium (CGM) at $z 9.0$, whereas low-metallicity pLLSs/LLSs are found in more diverse locations, with one population arising in the CGM of galaxies and another more broadly distributed in overdense regions of the universe. Using absorbers not associated with galaxies, we estimate the unweighted geometric mean metallicity of the intergalactic medium to be [X/H] $\lesssim -2.1$ at $z, Key figures: 13 and 18. Modified abstract. Accepted for publication in ApJ. Updated after referee comments, expanded subsection 4.4

Published

2022

7. Understanding the circumgalactic medium is critical for understanding galaxy evolution

Author

Peeples, Molly S, Behroozi, Peter, Bordoloi, Rongmon, Brooks, Alyson, Bullock, James S, Burchett, Joseph N, Chen, Hsiao-Wen, Chisholm, John, Christensen, Charlotte, Coil, Alison, Corlies, Lauren, Diamond-Stanic, Aleksandar, Donahue, Megan, Faucher-Giguère, Claude-André, Ferguson, Henry, Fielding, Drummond, Fox, Andrew J, French, David M, Furlanetto, Steven R, Gennaro, Mario, Gilbert, Karoline M, Hamden, Erika, Hathi, Nimish, Hayes, Matthew, Henry, Alaina, Howk, J Christopher, Hummels, Cameron, Kereš, Dušan, Kirby, Evan, Koekemoer, Anton M, Lan, Ting-Wen, Lanz, Lauranne, Law, David R, Lehner, Nicolas, Lotz, Jennifer M, Martin, Crystal L, McQuinn, Kristen, McQuinn, Matthew, Munshi, Ferah, Oh, S Peng, O'Meara, John M, O'Shea, Brian W, Pacifici, Camilla, Peek, JEG, Postman, Marc, Prescott, Moire, Putman, Mary, Quataert, Eliot, Rafelski, Marc, Ribaudo, Joseph, Rowlands, Kate, Rubin, Kate, Salmon, Brett, Scarlata, Claudia, Shapley, Alice E, Simons, Raymond, Snyder, Gregory F, Stern, Jonathan, Strom, Allison L, Tollerud, Erik, Torrey, Paul, Tremblay, Grant, Tripp, Todd M, Tumlinson, Jason, Tuttle, Sarah, Bosch, Frank C van den, Voit, G Mark, Wang, Q Daniel, Werk, Jessica K, Williams, Benjamin F, Zaritsky, Dennis, and Zheng, Yong

Subjects

astro-ph.GA, Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics::Galaxy Astrophysics

Abstract

Galaxies evolve under the influence of gas flows between their interstellar medium and their surrounding gaseous halos known as the circumgalactic medium (CGM). The CGM is a major reservoir of galactic baryons and metals, and plays a key role in the long cycles of accretion, feedback, and recycling of gas that drive star formation. In order to fully understand the physical processes at work within galaxies, it is therefore essential to have a firm understanding of the composition, structure, kinematics, thermodynamics, and evolution of the CGM. In this white paper we outline connections between the CGM and galactic star formation histories, internal kinematics, chemical evolution, quenching, satellite evolution, dark matter halo occupation, and the reionization of the larger-scale intergalactic medium in light of the advances that will be made on these topics in the 2020s. We argue that, in the next decade, fundamental progress on all of these major issues depends critically on improved empirical characterization and theoretical understanding of the CGM. In particular, we discuss how future advances in spatially-resolved CGM observations at high spectral resolution, broader characterization of the CGM across galaxy mass and redshift, and expected breakthroughs in cosmological hydrodynamic simulations will help resolve these major problems in galaxy evolution., Astro2020 Decadal Science White Paper

Published

2019

8. Discovery of a transparent sightline at �� < 20 kpc from an interacting pair of galaxies

Author

Johnson, Sean D., Chen, Hsiao-Wen, Mulchaey, John S., Tripp, Todd M., Prochaska, J. Xavier, and Werk, Jessica K.

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), Astrophysics of Galaxies (astro-ph.GA), FOS: Physical sciences, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

We report the discovery of a transparent sightline at projected distances of �� < 20 kpc to an interacting pair of mature galaxies at z = 0.12. The sightline of the UV-bright quasar PG1522+101 at z = 1.328 passes at �� = 11.5 kpc from the higher-mass galaxy (M_* = 10^10.6 M_Sun) and �� = 20.4 kpc from the lower-mass one (M_* = 10^10.0 M_Sun). The two galaxies are separated by 9 kpc in projected distance and 30 km/s in line-of-sight velocity. Deep optical images reveal tidal features indicative of close interactions. Despite the small projected distances, the quasar sightline shows little absorption associated with the galaxy pair with a total HI column density it no greater than log N(HI) = 13.65. This limiting HI column density is already two orders-of-magnitude less than what is expected from previous halo gas studies. In addition, we detect no heavy-element absorption features associated with the galaxy pair with 3-�� limits of log N(MgII) < 12.2 and log N(OVI) < 13.7. The probability of seeing such little absorption in a sightline passing at a small projected distance from two non-interacting galaxies is 0.2%. The absence of strong absorbers near the close galaxy pair suggests that the cool gas reservoirs of the galaxies have been significantly depleted by the galaxy interaction. These observations therefore underscore the potential impact of galaxy interactions on the gaseous halos around galaxies., MNRAS accepted: 11 pages, 3 figures

Published

2013