structure formation in void universes
DESCRIPTION
Structure formation in Void Universes. ?. Osaka City University (OCU) Ryusuke Nishikawa. collaborator Ken- ichi Nakao (OCU) , Chul -Moon Yoo (YITP). Dark Energy & Copernican Principle. Standard cosmological model. General Relativity + Copernican Principle + Observations. - PowerPoint PPT PresentationTRANSCRIPT
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Structure formation in Void Universes
Osaka City University (OCU)Ryusuke Nishikawa
collaboratorKen-ichi Nakao (OCU) ,Chul-Moon Yoo (YITP)
?
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Dark Energy & Copernican PrincipleStandard cosmological model
General Relativity + Copernican Principle + Observations
Dark Energy(homogeneous and isotropic spacetime)
Inhomogeneous cosmological model Tomita (2000) , Celerier (2000)
We live close to the center in spherically symmetric spacetime.
General Relativity + Copernican Principle + Observations
Dark Energy(inhomogeneous and isotropic spacetime)
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Void cosmological modelsdust, spherically symmetric
Lemaitre-Tolman-Bondi (LTB) solutions
Homogeneous Big Bang time
only growing mode
two functional degree (growing mode and decaying mode)
We consider homogeneous Big Bang Void models. large void
Clarkson, Regis (2010) 3/15
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Observational Tests
•CMB acoustic peak positions
•Radial BAO
•redshift drift
•kSZ effect
etc.
consistency
○
△
?×?
Tests using the large-scale structure evolution have not been performed.
Clarkson, Regis (2010), Yoo, Nakao, Sasaki (2010) ・・・Zibin, Moss, Scott (2008), Garcia-Bellido, Haugbolle (2008)
Yoo, Kai, Nakao (2008)
Yoo, Nakao, Sasaki (2011)
The symmetry of the background LTB is less than FLRW.
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Void structure
Clarkson, Regis model (2010)
nonlinear
density contrast :
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density contrast on past light-cone
This was first pointed out by Enqvist, Mattsson, Rigopoulos (2009).
We can use perturbative analysis for void structure inside the past light-cone.
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Linear approximation for the void universe
background FLRW
The relative error is within 20%.
linear perturbation
linear growing factor
density
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Hubble parameter
blue line : linear approximationblack line : exact LTB
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Perturbation in the approximated void universe
Second order perturbations in homogeneous and isotropic spacetime
We can solve.
Spherically symmetric :
synchronous comoving gauge
We assume and neglect terms.
Tomita (1967), ・・・
(we consider only scalar-scalar coupling)
Non-spherically symmetric :
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Non-spherically symmetric density perturbation
sub-horizon scale :
Fourier transform
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Angular power spectrum & Effective growth rate
3D power spectrum in FLRW.effective growth rate
We assume
In linear approximation,11/15
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Effective growth rate
If we observe the growth rate of , we can test the void model.
summary
Void model (CR model)
ΛCDM
Open FLRW
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Future work
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redshift space distortions
Guzzo et al. (2005)
この図にヴォイドモデルを書き入れたい.
線形摂動でヴォイドの効果が入る.
Kaiser (1987)Matsubara, Suto (1996)
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redshift space real space
2-parameter の摂動の場合:
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redshift space distortions
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視線方向redshift space
real space
void の効果
視線方向の相関を強める.>0
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参考
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redshift space distortions
空間曲率無視
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redshift space distortions
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redshift space distortions
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FLRW
FLRW + void effect
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LTB solution球対称 、ダスト時空は LTB (Lemaitre-Tolman-Bondi) 解で記述される .
known function
任意関数は
・ を仮定.
・ は座標を選ぶ自由度.
(宇宙初期は一様等方時空)
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second-order perturbation
linear perturbation equations
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second-order perturbation
second-order perturbation equation
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density contrast on past light-cone
Garcia-Bellido & Haugbolle model (2008)
(遠方は Einstein de-Sitter universe に近づく void model )
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近似して LTB摂動方程式を解いた例Zibin (2008)
silent approximation
neglecting the coupling between density perturbations and gravitational waves
Dunsby et al. (2010)
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メモRedshift は FLRW の redshift 用いて書く.
2次摂動まで入れると,1次の効果まで取り入れたredshift を考える必要があるか.
球対称ゆらぎのみ存在するときに distortions はどうみえるか?
固有速度は(一様等方時空に比べて)外に行くほど小さくなる.-> redshift space では集まるようにみえる.