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Main Authors: Faerman, Yakov, Piacitelli, Daniel R., McQuinn, Matthew, Werk, Jessica K.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.03553
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author Faerman, Yakov
Piacitelli, Daniel R.
McQuinn, Matthew
Werk, Jessica K.
author_facet Faerman, Yakov
Piacitelli, Daniel R.
McQuinn, Matthew
Werk, Jessica K.
contents We investigate the prospects for detecting and constraining density and temperature inhomogeneities in the circumgalactic medium (CGM) using absorption measurements of metal ions. Distributions in the gas thermal properties could arise from turbulence, gas cooling from the hot phase, and mixing between the cool and hot phases. Focusing on these physically motivated models, we parameterize each with a single parameter for simplicity and provide empirical and theoretical estimates for reasonable parameter values. We then construct the probability distribution functions for each of these scenarios, calculate the effective ion fractions, and fit our models to the COS-Halos absorption measurements to infer the gas densities and metallicities. We find that the models we consider (i) produce similarly good fits to the observations with or without distributions in the gas thermal properties, and (ii) result in detectable changes in the column densities only at the boundaries of reasonable parameter values. We show that He II self-shielding can have a larger effect on the ion fractions than density and temperature fluctuations. As a result, uncertainties in cloud geometry and their spatial distribution, affecting the details of radiation transfer, may obscure the effect of inhomogeneities.
format Preprint
id arxiv_https___arxiv_org_abs_2406_03553
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The signatures of density fluctuations and mixing gas in circumgalactic absorption systems
Faerman, Yakov
Piacitelli, Daniel R.
McQuinn, Matthew
Werk, Jessica K.
Astrophysics of Galaxies
We investigate the prospects for detecting and constraining density and temperature inhomogeneities in the circumgalactic medium (CGM) using absorption measurements of metal ions. Distributions in the gas thermal properties could arise from turbulence, gas cooling from the hot phase, and mixing between the cool and hot phases. Focusing on these physically motivated models, we parameterize each with a single parameter for simplicity and provide empirical and theoretical estimates for reasonable parameter values. We then construct the probability distribution functions for each of these scenarios, calculate the effective ion fractions, and fit our models to the COS-Halos absorption measurements to infer the gas densities and metallicities. We find that the models we consider (i) produce similarly good fits to the observations with or without distributions in the gas thermal properties, and (ii) result in detectable changes in the column densities only at the boundaries of reasonable parameter values. We show that He II self-shielding can have a larger effect on the ion fractions than density and temperature fluctuations. As a result, uncertainties in cloud geometry and their spatial distribution, affecting the details of radiation transfer, may obscure the effect of inhomogeneities.
title The signatures of density fluctuations and mixing gas in circumgalactic absorption systems
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2406.03553