why there are many alternatives to inflation ?
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Why there are many alternatives to inflation ?. 朴云松 Graduated University of CAS. Hangzhou , 2012.4.11. Abstract. 1 、 How to solve the problems of “ big bang ” model 2 、 How to have a scale invariant primordial perturbation 3 、 Comments. - PowerPoint PPT PresentationTRANSCRIPT
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Why there are many Why there are many alternatives to alternatives to
inflation ?inflation ?
朴云松朴云松 Graduated University of CASGraduated University of CAS
Hangzhou , 2012.4.11
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Abstract
1 、 How to solve the problems of “big bang” model
2 、 How to have a scale invariant primordial perturbation 3 、 Comments
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1 、 How to solve the problems of “big bang” model
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1 、 How to solve the problems of “big bang” model
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1 、 How to solve the problems of “big bang” model
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1 、 How to solve the problems of “big bang” model
Why flat
Why honogeneous
Why primordial perturbation
??
Thus, all problems share same origin
a|H| is decreasing
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Thus, the solution is
in a period of early universe,
a|H| increases with time.
1 、 How to solve the problems of “big bang” model
*
1
a
*
1| |
a H actually for any evolution
for inflationHta e
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There are infinite possible evolutions
1 、 How to solve the problems of “big bang” model
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1 、 How to solve the problems of “big bang” model
ln(a)
ln(1/a|H|)
“big bang” model
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expansion
contraction
1 、 How to solve the problems of “big bang” model
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Is the scale invariance of
primordial perturbation
the unique prediction of inflation ?
2 、 How to have a scale invariant primordial perturbation
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The curvature perturbation
2 、 How to have a scale invariant primordial perturbation
The equation of perturbation is 2
2
14
v
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2 、 How to have a scale invariant primordial perturbation
The initial condition
1
2 ik
ku ek
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The solution is
2 、 How to have a scale invariant primordial perturbation
The power spectrum is
23 2
2 3 22
1 ( )2
vk
R R
uk HP k
z Q
( 1/2)
21/2
3/2
( ) 132 2( )2
i vv
k v
e vu k
k
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The scale invariance requires
The definition of both modes is
2 、 How to have a scale invariant primordial perturbation
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inflation contraction with w=0 Brandenberger call “matter bounce”
When all are unchanged, only
a
2 、 How to have a scale invariant primordial perturbation
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However, the case might be inverse,all are unchanged, only
Q
Thus
2 、 How to have a scale invariant primordial perturbation
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is the slow contraction
is the slow expansion“Nearly scale invariant spectrum of adiabatic
fluctuations may be from a very slowly expanding phase of the universe.” Phys.Rev.D68:083515,2003.
Khoury, Steinhardt,et.al
2 、 How to have a scale invariant primordial perturbation
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2 、 How to have a scale invariant primordial perturbation
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2 、 How to have a scale invariant primordial perturbation
The duality of primordial perturbations (early universe scenarios)
2
2
2
2
p
p
HP
M
HP
M
for inflation
for slow evolution
Piao, Zhang, Phys.Rev.D70:043516,2004.Boyel, Steinhardt, Turok, Phys.Rev.D70:023504,2004.
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distinguished from“The Emergent Universe: inflationary cosmology with no singularity” G.Ellis, R. MaartensClass.Quant.Grav.21:223-232,2004
2 、 How to have a scale invariant primordial perturbation
the slow expansion scenario1/
*( ) a t t
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the evolutions with rapidly changed
inflation
Z.G.Liu, J.Zhang, Y.S.Piao, Phys.Rev.D84, 063508 (2011)
2 、 How to have a scale invariant primordial perturbation
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Z.G.Liu, J.Zhang, Y.S.Piao, Phys.Rev.D84, 063508 (2011)
2 、 How to have a scale invariant primordial perturbation
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Y.S.Piao, Phys.Lett.B701, 526 (2011)
2 、 How to have a scale invariant primordial perturbation
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2 、 How to have a scale invariant primordial perturbation
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Piao, Phys.Rev.D72, 103513 (2005); Phys.Lett.B659, 839 (2008)
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expansion
contraction
2 、 How to have a scale invariant primordial perturbation
but inflation has the least problems.
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2 、 How to have a scale invariant primordial perturbation
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However,
with the “curvaton” mechanism
in principle, the perturbation can be scale invariant for arbitrary evolutions.
It is applied earlier in Veneziano et.al“Pre Big Bang”.
2 、 How to have a scale invariant primordial perturbation
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“Pre big bang” scenario
The contraction with =3
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2 、 How to have a scale invariant primordial perturbation
The “curvaton” perturbation
The scale invariance requires
*
1a Q
The curvature perturbation
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2 、 How to have a scale invariant primordial perturbation
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The problems of “big bang” model requires
3 、 Why there are many alternatives to inflation ?
*
1| |a H
The scale invariance of spectrum requires
*
1Ra Q
for adiabatic mode
| |RQ H
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The scale invariance of spectrum requires
*
1a Q
for entropy mode
The problems of “big bang” model requires
*
1| |a H
| | Q H
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How to distinguish inflation and its alternatives ?
When the perturbation is Gaussian, |f_NL|<1,inflation is the simplest scenario of early universe.
When there is the tensor perturbation inflation is the simplest scenario of early universe.
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The tensor perturbation
The scale invariance requires
Appendix How to have completely same scalar and tensor perturbation ?
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inflation contraction with w=0
When all are unchanged, only
a
However, it is large, r>1.
Appendix How to have completely same scalar and tensor perturbation ?
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The scalar and tensor perturbation are conformal invariant.
i.e. in conformal related frames, the results obtained are same.
N.Makino, M.Sasaki, Prog. Theor. Phys 86, 103 (1991)
Appendix How to have completely same scalar and tensor perturbation ?
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We did a detailed calculation for slow expanding scenario.
When a is slow expanding, only
Appendix How to have completely same scalar and tensor perturbation ?
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Y.S. Piao, arXiv:1112.3737
Appendix How to have completely same scalar and tensor perturbation ?
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slow evolution inflation
The exact duality
Appendix How to have completely same scalar and tensor perturbation ?
The approximate duality
Piao, Zhang, Phys.Rev.D70:043516,2004.Boyel, Steinhardt, Turok, Phys.Rev.D70:023504,2004.
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How to distinguish inflation and its alternatives ?
Directly recording the time dependence of a
Xingang Chen, arXiv:1104.1323
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Inflation “might” be the simplest scenario of early universe. Identifying it is a challenging issue.
There are many things to do.
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CFT
Thank Thank YouYou ! !