The Response of Metal-rich Gas to X-Ray Irradiation from a Massive Black Hole at High Redshift: Proof of Concept

A. Aykutalp; J. H. Wise; R. Meijerink; M. Spaans

doi:10.1088/0004-637X/771/1/50

The Response of Metal-rich Gas to X-Ray Irradiation from a Massive Black Hole at High Redshift: Proof of Concept

A. Aykutalp^*
, J. H. Wise
, R. Meijerink
, M. Spaans

^*Corresponding author voor dit werk

Sterrenkunde

Onderzoeksoutput › Academic › peer review

15 Citaten (Scopus)

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Observational studies show that there is a strong link between the formation and evolution of galaxies and the growth of their supermassive black holes. However, the underlying physics behind this observed relation is poorly understood. In order to study the effects of X-ray radiation on black hole surroundings, we implement X-ray-dominated region physics into Enzo and use the radiation transport module Moray to calculate the radiative transfer for a polychromatic spectrum. In this work, we investigate the effects of X-ray irradiation, produced by a central massive black hole (MBH) with a mass of M = 5 x 10(4) M-circle dot, on ambient gas with solar and zero metallicity. We find that in the solar metallicity case, the energy deposition rate in the central region (

Originele taal-2	English
Artikelnummer	50
Aantal pagina's	20
Tijdschrift	Astrophysical Journal
Volume	771
Nummer van het tijdschrift	1
DOI's	https://doi.org/10.1088/0004-637X/771/1/50
Status	Published - jul.-2013

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The Response of Metal-rich Gas to X-Ray Irradiation from a Massive Black
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title = "The Response of Metal-rich Gas to X-Ray Irradiation from a Massive Black Hole at High Redshift: Proof of Concept",

abstract = "Observational studies show that there is a strong link between the formation and evolution of galaxies and the growth of their supermassive black holes. However, the underlying physics behind this observed relation is poorly understood. In order to study the effects of X-ray radiation on black hole surroundings, we implement X-ray-dominated region physics into Enzo and use the radiation transport module Moray to calculate the radiative transfer for a polychromatic spectrum. In this work, we investigate the effects of X-ray irradiation, produced by a central massive black hole (MBH) with a mass of M = 5 x 10(4) M-circle dot, on ambient gas with solar and zero metallicity. We find that in the solar metallicity case, the energy deposition rate in the central region (",

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author = "A. Aykutalp and Wise, \{J. H.\} and R. Meijerink and M. Spaans",

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T2 - Proof of Concept

AU - Aykutalp, A.

AU - Wise, J. H.

AU - Meijerink, R.

AU - Spaans, M.

PY - 2013/7

Y1 - 2013/7

N2 - Observational studies show that there is a strong link between the formation and evolution of galaxies and the growth of their supermassive black holes. However, the underlying physics behind this observed relation is poorly understood. In order to study the effects of X-ray radiation on black hole surroundings, we implement X-ray-dominated region physics into Enzo and use the radiation transport module Moray to calculate the radiative transfer for a polychromatic spectrum. In this work, we investigate the effects of X-ray irradiation, produced by a central massive black hole (MBH) with a mass of M = 5 x 10(4) M-circle dot, on ambient gas with solar and zero metallicity. We find that in the solar metallicity case, the energy deposition rate in the central region (

AB - Observational studies show that there is a strong link between the formation and evolution of galaxies and the growth of their supermassive black holes. However, the underlying physics behind this observed relation is poorly understood. In order to study the effects of X-ray radiation on black hole surroundings, we implement X-ray-dominated region physics into Enzo and use the radiation transport module Moray to calculate the radiative transfer for a polychromatic spectrum. In this work, we investigate the effects of X-ray irradiation, produced by a central massive black hole (MBH) with a mass of M = 5 x 10(4) M-circle dot, on ambient gas with solar and zero metallicity. We find that in the solar metallicity case, the energy deposition rate in the central region (

KW - galaxies: active

KW - galaxies: nuclei

KW - Galaxy: formation

KW - ADAPTIVE MESH REFINEMENT

KW - ACTIVE GALACTIC NUCLEI

KW - DWARF NOVA OUTBURSTS

KW - CROSS-SECTIONS

KW - MOLECULAR GAS

KW - Z-SIMILAR-TO-6 QUASARS

KW - RADIATION PRESSURE

KW - INFRARED GALAXIES

KW - ENERGY DEPOSITION

KW - ELLIPTIC GALAXIES

UR - http://adsabs.harvard.edu/abs/2013ApJ...771...50A

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SN - 0004-637X

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JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 50

ER -

The Response of Metal-rich Gas to X-Ray Irradiation from a Massive Black Hole at High Redshift: Proof of Concept

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