Tomaschitz, R. (2010). Effect of a varying gravitational constant on the SN Ia Hubble diagram, AGN luminosity evolution, and X-ray source counts, Astrophysics and Space Science 325, 259-275, DOI: 10.1007/s10509-009-0175-7

 

 

Abstract (SpringerLink, SAO/NASA ADS, Zbl 1186.83176)

The impact of a cosmic time evolution of the gravitational constant on SN Ia luminosity and AGN/QSO luminosity functions is studied. The gravitational constant scales linearly with the Hubble parameter, its present-day variation being dot{G}0/G0≈ 1.9×10^{-4} Gyr‑1, compatible with current bounds from lunar laser ranging. Distance moduli of Type Ia supernovae are fitted with a cosmic expansion factor derived from temperature variations of planetary paleoclimates, and a luminosity dependence on look-back time proportional to the varying gravitational constant is inferred from the Hubble diagram. A fit is performed to the comoving space density of X-ray-selected active galactic nuclei (AGNs) and optically selected quasars (QSOs) extending to redshifts z≈6. The initial steep increase of the AGN space density is reproduced by a redshift evolution depending solely on the Hubble parameter as scaling variable. The AGN luminosity scales with the Hubble parameter, and the scaling exponents of the luminosity function, composed of two competing power laws with exponential cutoff, are obtained. Based on the AGN luminosity function, flux-limited X-ray source counts are investigated. The counting functions are derived and put to test by fitting cumulative number counts of soft X-ray point sources compiled from ROSAT, XMM-Newton, and Chandra surveys.

 

Cosmic time scaling of Newton’s constant - Robertson–Walker cosmology - Hubble diagram of Type Ia supernovae - Active galactic nuclei - Luminosity function and comoving space density - Number counts of X-ray point sources

PACS  98.80.Es - 98.62.Py - 98.62.Ve - 95.30.Sf

 

 

Zbl 1186.83176
Tomaschitz, Roman
Effect of a varying gravitational constant on the SN Ia Hubble diagram, AGN luminosity evolution, and X-ray source counts
[J] Astrophys. Space Sci. 325, No. 2, 259-275 (2010). ISSN 0004-640X; ISSN 1572-946X

MSC 2000:

*83F05 Relativistic cosmology

 

Title:

 

Effect of a varying gravitational constant on the SN Ia Hubble diagram, AGN luminosity evolution, and X-ray source counts

Authors:

 

Tomaschitz, Roman

Affiliation:

 

AA(Department of Physics, Hiroshima University)

Publication:

 

Astrophysics and Space Science, Volume 325, Issue 2, pp.259-275 (Ap&SS Homepage)

Publication Date:

 

02/2010

Origin:

 

SPRINGER

DOI:

 

10.1007/s10509-009-0175-7

Bibliographic Code:

 

2010Ap&SS.325..259T

 

 

description: Roman Tomaschitz (2010) Effect of a varying gravitational constant on the SN Ia Hubble diagram, AGN luminosity evolution, and X-ray source counts, Astrophysics and Space Science 325, 259.

 

Keywords: cosmic time variation of Newton’s constant, redshift evolution of the gravitational constant, Robertson–Walker cosmology, Hubble diagram of Type Ia supernovae, active galactic nuclei, quasars, AGN luminosity function and comoving space density, flux-limited source counts, cumulative number counts of X-ray point sources, Hubble parameter, deceleration parameter, planetary paleoclimates, dimensionless ratios of fundamental constants

 

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