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Hot Atmospheres, Cold Gas, AGN Feedback and the Evolution of Early Type Galaxies: A Topical Perspective

by Scannapieco, E. , McNamara, B. R. , Werner, N. , Churazov, E.

in Active galactic nuclei / Aerospace Technology and Astronautics / Astrophysics and Astroparticles / Atmosphere / Clusters of Galaxies: Physics and Cosmology / Cold gas / Cooling / Entropy / Evolution / Feedback / Galactic clusters / Galactic evolution / Galaxies / Heating / Heating and cooling / Milky Way / Nebulae / Physics / Physics and Astronomy / Planetology / Radio jets (astronomy) / Radio sources (astronomy) / Space Exploration and Astronautics / Space Sciences (including Extraterrestrial Physics / Spheroids / Star & galaxy formation / Star formation / Stellar atmospheres / Stellar mass / Thermal instability

2019

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Hot Atmospheres, Cold Gas, AGN Feedback and the Evolution of Early Type Galaxies: A Topical Perspective

by Scannapieco, E. , McNamara, B. R. , Werner, N. , Churazov, E.

2019

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Hot Atmospheres, Cold Gas, AGN Feedback and the Evolution of Early Type Galaxies: A Topical Perspective

by Scannapieco, E. , McNamara, B. R. , Werner, N. , Churazov, E.

2019

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Journal Article

Hot Atmospheres, Cold Gas, AGN Feedback and the Evolution of Early Type Galaxies: A Topical Perspective

Scannapieco, E.,

McNamara, B. R.,

Werner, N.,

Churazov, E.

2019

Overview

Most galaxies comparable to or larger than the mass of the Milky Way host hot, X-ray emitting atmospheres, and many such galaxies are radio sources. Hot atmospheres and radio jets and lobes are the ingredients of radio-mechanical active galactic nucleus (AGN) feedback. While a consensus has emerged that such feedback suppresses cooling of hot cluster atmospheres, less attention has been paid to massive galaxies where similar mechanisms are at play. Observation indicates that the atmospheres of elliptical and S0 galaxies were accreted externally during the process of galaxy assembly and augmented significantly by stellar mass loss. Their atmospheres have entropy and cooling time profiles that are remarkably similar to those of central cluster galaxies. About half display filamentary or disky nebulae of cool and cold gas, much of which has likely cooled from the hot atmospheres. We review the observational and theoretical perspectives on thermal instabilities in galactic atmospheres and the evidence that AGN heating is able to roughly balance the atmospheric cooling. Such heating and cooling may be regulating star formation in all massive spheroids at late times.

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Publisher

Springer Netherlands,Springer Nature B.V

Subject

Active galactic nuclei

/ Aerospace Technology and Astronautics

/ Astrophysics and Astroparticles

/ Atmosphere

/ Clusters of Galaxies: Physics and Cosmology

/ Cold gas

/ Cooling