2012. 12. 20 中国科技大学交叉中心 吴普训 宁波大学理学院 distance duality...
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2012. 12. 20 中国科技大学交叉中心
吴普训宁波大学理学院
Distance duality relation and cosmic opacity
Collaborators: Zhengxiang Li, Jun Chen, Hongwei Yu
Li, Wu and Yu, APJL 729 (2011) L14Chen, Wu, Yu and Li, JCAP 10 (2012) 029
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Distance duality (DD) relation
Model-independent tests for the DD relation
Cosmic opacity
Conclusions
Outline
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The distance duality relationCosmological distances:
Luminosity distance DL:
24/ LDLF
Angular diameter distance (ADD) DA:
dDdA A
A: the object’s size\theta: the angular size of the object
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the number of photons is conserved photons travel along null geodesics
Distance-duality relation:
Two necessary conditions:
Valid for all cosmological models based on Riemannian geometry, dependent neither on Einstein field equations nor the nature of matter-energy content (Etherington 1933)
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The role of DD relation:
Taken for granted in virtually all analyses of cosmological observations
Gravitational lensing Galaxy distribution and galaxy clusters
observations CMBR observations
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The possibilities for the violation of DD relation
Absorption of photon by dust and plasma Photon-axion oscillation in an external magnetic
field Gravity being not described by a metric theory
A signal of new physics?
Testable by means of astronomical observations.
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Testing the DD relation:
X-ray and Sunyaev-Zel’dovich observations of clusters (Uzan et al. PRD 2004)
:18 X-ray and Sunyaev-Zel’dovich data of clusters of galaxies
: LCDM model
at 1\sigma confidence level
The DD relation is consistent with observations at 2 \sigma confidence level
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Testing the DD relation
Union Type Ia supernovae and the Hubble data (Avgoustidis et al. JCAP 2010)
Galaxy clusters provided by elliptical model and the spherical model (Holanda et al. AAL 2010)
LCDM model is used.
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Model-independent:
The ADD is given from galaxy clusters The luminosity distance is from SNe Ia
De Bernardis et al. IJMPD 2006
To obtain the values of the ADD and the luminosity distances at the same redshift from SNe Ia, they bin the SN Ia data
the DD relation is not violated at 1\sigma confidence level
Caution
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The galaxy clusters data
The X-ray emission takes the form:
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The method:Parametrize: the DD relation:
MODEL-INDEPENDENT TESTS FROM GALAXY CLUSTERS AND TYPE Ia SUPERNOVA
Holanda,Lima and Ribeiro,ApJL,722:L233,2010Li, Wu and Yu, APJL, 729:L14,2011
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Data:
The luminosity distance:
397 Constitution SNe Ia
557 Union2 SNe Ia
The ADD: galaxy clusters:
25 data from the elliptical model
38 data from the spherical model
Parameterizations:
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The selection criteria
Constitution: 12 ADD data points are discarded in spherical model
Union2: All ADD data points included
Holanda
(Constitution)
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Constitution: 6 ADD data points are discarded in elliptical model
Union2: All ADD data points included
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The results:
HolandaConstitution
Without the errors of SNe Ia
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without and with the errors of SNe Ia
Constitution
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Union2
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The DD relation can be accommodated at 1σ CL for the elliptical model and at 3σ CL for the spherical model
With two more general parameterization forms, the consistencies between the observations and the DD relation are improved markedly for both samples of galaxy clusters.
With the inclusion of the errors of SNe Ia, the results become more consistent with the DD relation.
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Other works:
A Consistent Test of the Distance-Duality Relation with Galaxy Clusters and Type Ia Supernave, (Liang, et al., arXiv:1104.2497)
Morphology of Galaxy Clusters: A Cosmological Model-Independent Test of the Cosmic Distance-Duality Relation (Meng, Zhang, Zhan, APJ, 2011)
Observational cosmology and the cosmic distance duality relation, (Nair, Jhingan and Deepak, JCAP,2011)
A test for cosmic distance duality. (Holanda, et al. JCAP 2012)
Testing the distance duality relation with present and future data. (Cardona, et al. PRD, 2012)
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RiessPerlmutterSchmidt
Accelerated cosmic expansion:
Type Ia Supernova data:
2010: Nobel prize
Cosmic opacity
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Sources for photon attenuation
Absorption or scattering of gas and plasma
Axion-photon mixing
The observed luminosity distance derived from SNIa will be modified and it will be larger than the true one
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: the opacity between an observer at redshift z = 0 and a source at z
The relation between the observe luminosity distance and the true one (Chen and Kantowski, 2009)
The luminosity distance
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For a spatially homogeneous and nondispersive absorption (Chen and Kantowski 2009 PRD)
Two Models:
is the dimensionless cosmic absorption parameter
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Union2 SNIa data (Lima, et al., 2011 ApJL):
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With systematic error for SNIa
To break the degeneracy: Union2 SNIa+Six BAO data
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With systematic error for SNIa
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Testing cosmic opacity Data:
SNIa
BAO
Hubble
The distance modulus
The distance modulus difference
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: SNIa data : BAO data
Hubble data+SNIa:
BAO data: z=0.2 and 0.35 from SDSS and 2DFGRS
95% CL
(More, et al. 2009 APJ)
(Avgoustidis, et al, 2010 JCAP)
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7 BAO data points
Chen, Wu, Yu and Li, JCAP (2012)
Is the Cosmic Transparency Spatially Homogeneous?
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Union2 SNIa
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Chen, Wu, Yu and Li, JCAP (2012)
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Conclusions
The DD relation can be accommodated at 1σ CL for the elliptical model and at 3σ CL for the spherical model.
The best-fit cosmic opacity oscillates between zero and some nonzero values as the redshift varies.
A transparent universe is consistent with observations at the 1σ confidence level.
An opaque universe is favored by SNe Ia+BAO. The cosmic opacity is not enough to account for the
present observations and dark energy or modified gravity remains to be required.
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Thanks