Molecular gas in nearby low-luminosity QSO host galaxies

Aims.This paper addresses the global molecular gas properties of a representative sample of galaxies hosting low-luminosity quasistellar objects. An abundant supply of gas is necessary to fuel both the active galactic nucleus and any circum-nuclear starburst activity of QSOs. The connection between...

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Published inAstronomy and astrophysics (Berlin) Vol. 470; no. 2; pp. 571 - 583
Main Authors Bertram, T., Eckart, A., Fischer, S., Zuther, J., Straubmeier, C., Wisotzki, L., Krips, M.
Format Journal Article
LanguageEnglish
Published Les Ulis EDP Sciences 01.08.2007
Subjects
Astronomy
Earth, ocean, space
Exact sciences and technology
galaxies: active
galaxies: ISM
galaxies: Seyfert
quasars: general
radio lines: ISM
Ultraviolet excess
Quasars
Red shift
galaxies: Seyfert
quasars: general
Line widths
Luminosity
Population I
Molecular gas
Transition zone
Active galaxies
Seyfert galaxies
Upper bound
radio lines: ISM
galaxies: active
Active galaxy nuclei
galaxies: ISM
Galaxy nuclei
Infrared galaxies
Models
Power law
Infrared excess
Online AccessGet full text
ISSN0004-6361
1432-0746
DOI10.1051/0004-6361:20077578

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Abstract Aims.This paper addresses the global molecular gas properties of a representative sample of galaxies hosting low-luminosity quasistellar objects. An abundant supply of gas is necessary to fuel both the active galactic nucleus and any circum-nuclear starburst activity of QSOs. The connection between ultraluminous infrared galaxies and the host properties of QSOs is still subject to a controversial debate. Nearby low-luminosity QSOs are ideally suited to study the properties of their host galaxies because of their higher frequency of occurrence compared to high-luminosity QSOs in the same comoving volume and because of their small cosmological distance. Methods. We selected a sample of nearby low-luminosity QSO host galaxies that is free of infrared excess biases. All objects are drawn from the Hamburg-ESO survey for bright UV-excess QSOs, have $\delta > $-30° and redshifts that do not exceed $z = 0.06$. The IRAM 30 m telescope was used to measure the 12CO(1-0) and 12CO(2-1) transition in parallel. Results.27 out of 39 galaxies in the sample have been detected. The molecular gas masses of the detected sources range from 0.4$\times$109$M_\odot$ to 9.7$\times$109$M_\odot$. The upper limits of the non-detected sources correspond to molecular gas masses between 0.3$\times$109$M_\odot$ and 1.2$\times$109$M_\odot$. We can confirm that the majority of galaxies hosting low-luminosity QSOs are rich in molecular gas. The properties of galaxies hosting brighter type I AGN and circumnuclear starformation regions differ from the properties of galaxies with fainter central regions. The overall supply of molecular gas and the spread of the line width distribution is larger. When comparing the far-infrared with the CO luminosities, the distribution can be separated into two different power-laws: one describing the lower activity Seyfert I population and the second describing the luminous QSO population. The separation in the LFIR/$L'_{\rm CO}$ behavior may be explainable with differing degrees of compactness of the emission regions. We provide a simple model to describe the two power-laws. The sample studied in this paper is located in a transition region between the two populations.
AbstractList Aims. This paper addresses the global molecular gas properties of a representative sample of galaxies hosting low-luminosity quasistellar objects. An abundant supply of gas is necessary to fuel both the active galactic nucleus and any circum-nuclear starburst activity of QSOs. The connection between ultraluminous infrared galaxies and the host properties of QSOs is still subject to a controversial debate. Nearby low-luminosity QSOs are ideally suited to study the properties of their host galaxies because of their higher frequency of occurrence compared to high-luminosity QSOs in the same comoving volume and because of their small cosmological distance. Methods. We selected a sample of nearby low-luminosity QSO host galaxies that is free of infrared excess biases. All objects are drawn from the Hamburg-ESO survey for bright UV-excess QSOs, have \delta >-30and redshifts that do not exceed z = 0.06. The IRAM 30 m telescope was used to measure the super(12) CO(1-0) and super(12) CO(2-1) transition in parallel. Results. 27 out of 39 galaxies in the sample have been detected. The molecular gas masses of the detected sources range from 0.4\times10 super(9) M_\odot to 9.7\times10 super(9) M_\odot. The upper limits of the non-detected sources correspond to molecular gas masses between 0.3\times10 super(9) M_\odot and 1.2\times10 super(9) M_\odot. We can confirm that the majority of galaxies hosting low-luminosity QSOs are rich in molecular gas. The properties of galaxies hosting brighter type I AGN and circumnuclear starformation regions differ from the properties of galaxies with fainter central regions. The overall supply of molecular gas and the spread of the line width distribution is larger. When comparing the far-infrared with the CO luminosities, the distribution can be separated into two different power-laws: one describing the lower activity Seyfert I population and the second describing the luminous QSO population. The separation in the L_{\rm FIR}/ L_{\rm CO} behavior may be explainable with differing degrees of compactness of the emission regions. We provide a simple model to describe the two power-laws. The sample studied in this paper is located in a transition region between the two populations.
Aims.This paper addresses the global molecular gas properties of a representative sample of galaxies hosting low-luminosity quasistellar objects. An abundant supply of gas is necessary to fuel both the active galactic nucleus and any circum-nuclear starburst activity of QSOs. The connection between ultraluminous infrared galaxies and the host properties of QSOs is still subject to a controversial debate. Nearby low-luminosity QSOs are ideally suited to study the properties of their host galaxies because of their higher frequency of occurrence compared to high-luminosity QSOs in the same comoving volume and because of their small cosmological distance. Methods. We selected a sample of nearby low-luminosity QSO host galaxies that is free of infrared excess biases. All objects are drawn from the Hamburg-ESO survey for bright UV-excess QSOs, have $\delta > $-30° and redshifts that do not exceed $z = 0.06$. The IRAM 30 m telescope was used to measure the 12CO(1-0) and 12CO(2-1) transition in parallel. Results.27 out of 39 galaxies in the sample have been detected. The molecular gas masses of the detected sources range from 0.4$\times$109$M_\odot$ to 9.7$\times$109$M_\odot$. The upper limits of the non-detected sources correspond to molecular gas masses between 0.3$\times$109$M_\odot$ and 1.2$\times$109$M_\odot$. We can confirm that the majority of galaxies hosting low-luminosity QSOs are rich in molecular gas. The properties of galaxies hosting brighter type I AGN and circumnuclear starformation regions differ from the properties of galaxies with fainter central regions. The overall supply of molecular gas and the spread of the line width distribution is larger. When comparing the far-infrared with the CO luminosities, the distribution can be separated into two different power-laws: one describing the lower activity Seyfert I population and the second describing the luminous QSO population. The separation in the LFIR/$L'_{\rm CO}$ behavior may be explainable with differing degrees of compactness of the emission regions. We provide a simple model to describe the two power-laws. The sample studied in this paper is located in a transition region between the two populations.
Author Wisotzki, L.
Krips, M.
Bertram, T.
Fischer, S.
Zuther, J.
Eckart, A.
Straubmeier, C.
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  surname: Bertram
  fullname: Bertram, T.
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  givenname: A.
  surname: Eckart
  fullname: Eckart, A.
  organization: I. Physikalisches Institut, Universität zu Köln, Zülpicher Str. 77, 50937 Köln, Germany e-mail: bertram@ph1.uni-koeln.de
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  givenname: S.
  surname: Fischer
  fullname: Fischer, S.
  organization: I. Physikalisches Institut, Universität zu Köln, Zülpicher Str. 77, 50937 Köln, Germany e-mail: bertram@ph1.uni-koeln.de
– sequence: 4
  givenname: J.
  surname: Zuther
  fullname: Zuther, J.
  organization: I. Physikalisches Institut, Universität zu Köln, Zülpicher Str. 77, 50937 Köln, Germany e-mail: bertram@ph1.uni-koeln.de
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  givenname: C.
  surname: Straubmeier
  fullname: Straubmeier, C.
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  givenname: L.
  surname: Wisotzki
  fullname: Wisotzki, L.
  organization: Astrophysikalisches Institut Potsdam, An der Sternwarte 16, 14482 Potsdam, Germany
– sequence: 7
  givenname: M.
  surname: Krips
  fullname: Krips, M.
  organization: Harvard-Smithsonian Center for Astrophysics, SMA project, 645 North A'ohoku Place, Hilo, HI 96720, USA
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Issue 2
Keywords Ultraviolet excess
Quasars
Red shift
galaxies: Seyfert
quasars: general
Line widths
Luminosity
Population I
Molecular gas
Transition zone
Active galaxies
Seyfert galaxies
Upper bound
radio lines: ISM
galaxies: active
Active galaxy nuclei
galaxies: ISM
Galaxy nuclei
Infrared galaxies
Models
Power law
Infrared excess
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Snippet Aims.This paper addresses the global molecular gas properties of a representative sample of galaxies hosting low-luminosity quasistellar objects. An abundant...
Aims. This paper addresses the global molecular gas properties of a representative sample of galaxies hosting low-luminosity quasistellar objects. An abundant...
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SubjectTerms Astronomy
Earth, ocean, space
Exact sciences and technology
galaxies: active
galaxies: ISM
galaxies: Seyfert
quasars: general
radio lines: ISM
Title Molecular gas in nearby low-luminosity QSO host galaxies
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