emergent universe : theory and observations
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Emergent Universe : Theory and Observations. B. C. Paul* Physics Department North Bengal University Siliguri -734 013, India *IUCAA Resource Centre, NBU _____________________________________. Outline of the Talk __________________________________________ - PowerPoint PPT PresentationTRANSCRIPT
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EMERGENT UNIVERSE : THEORY AND OBSERVATIONS
B. C. Paul*Physics Department
North Bengal UniversitySiliguri -734 013, India
*IUCAA Resource Centre, NBU_____________________________________
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Outline of the Talk__________________________________________
Introduction on Emergent Universe (EU) Cosmological Solution by Harrison EU in Non-flat universe & Construction of
Potential for EU EU Model in flat Universe EU with Astronomical Observations Brief Discussions
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Emergent Universe
A universe which is ever-existing, large enough so that space-time may be treated as classical entities.
No time like singularity. The Universe in the infinite past is in an
almost static state but it eventually evolves into an inflationary stage.
An emergent universe model, if developed in a consistent way is capable of solving the well known conceptual problems of the Big-Bang model.
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Why Emergent Universe ?
Emergent Universe
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INTRODUCTION
)sin()( 222222222 drdrdrtadtds
)1()( 0teata
0)0( 0 aaEver existing universe. No singularity !
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In 1967, Harrison found a cosmological solution in a closed model with radiation and a positive cosmological constant :
As , the model goes over asymptotically to an Einstein Static Universe, the expansion is given by a finite number of e-folds :
Radius is determined by . However, de Sitter phase is never ending (NO Exit).
21
2exp1)(
ii a
tata
t
io
i
oo at
aaN
2ln
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Ellis and Maartens (CQG, 21 (2004) 223) : Considered a dynamical scalar field to obtain
EU in a Closed Universe. In the model, taken up minimally coupled scalar field in a self-interacting potential V( ).
In this case the initial size of the universe is determined by the field’s kinetic energy.
To understand we now consider a model consisting of ordinary matter and minimally coupled homogeneous scalar field in the next section.
ia
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The KG equation for field:
The conservation equation for matter is
The Raychaudhuri equation
First Integral Friedmann equation :
It leads to
0)1(3
H
03
VH
)()31(21
38 2 VG
aa
222 )(
21
38
aKVGH
22 )1(4
aKGH
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Raychaudhuri equation gives condition for inflation,
For a positive minimum ,
where the time may be infinite.
Va
)31(210 2
0 ii taa
22
83
210
iiiii Ga
KVH
it
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The Einstein Static universe is characterized by and , we now get
Case I : If the KE of the field vanishes, there must be
matter to keep the universe static.
Case II : If only scalar field with non-zero KE, the field rolls at constant speed along the flat potential.
1K .ia a Const
22
411
iiii aG
,4
1121
2i
iii aGV
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A simple Potential for Emergent Universe with scalar field only is given by
But drops towards a minimum at a finite value
Potential is given by-10 -8 -6 -4 -2
phi
1
2
3
4
5
V
tasVV i ,)(
f
2
1exp)(
f
fif VVVV
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Determination of the parameters in the potential : Considering the space-time filled with a minimally
coupled scalar field with potential :
where A, B, C, D are constants to be determined by specific properties of the EU.
Potential has a minimum at
Set the minimum of the potential at the origin of the axis, we choose C=D and E = 0
EDeCVV G 2
GG eDeCCGV 2
GG eDCeCGV 22 2
EVVwithCD
G ooo
ln1
21 GeCV
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By definition EU corresponds to a past-asymptotic Einstein-static model :
where is the radius of the initial static model. To determine an additional parameter recall that an ES universe filled with a single scalar field satisfies
Thus we have
Basic properties of EU have fixed three of the four parameters in the original potential. The parameter B will be fixed as follows :
in the higher derivative context .
2
2
iaV
ia
22
22
ii aC
aV
22 12
G
i
ea
V
00142
foree
aGV GG
i
0 G 0
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Consider - modified action (Ellis et al. CQG 21 (233) 2004)
Define and consider the conformal transformation , so that
If we now equate we get
2R
24 RRgxdI
lnln6ln61~2
ggRR
R212
gg 2~
R 21ln3
2
34 141~
21~
egRgxdI
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-10 -8 -6 -4 -2phi
1
2
3
4
5
V
1 2 34
The corresponding potential in EU is the reflection of the potential that obtained from higher derivative gravity. The different parts of the potential are :(1) Slow-rolling regime or intermediate pre-slow roll phase(2) Scale factor grows (slow-roll phase)(3) inflation is followed by a re-heating phase(4) standard hot Big Bang evolution
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OUR MODEL : (SM, BCP, NKD, SD, AB, CQG 23, 6927 (2006))
In looking for a model of emergent universe, We assume the following features for the universe :
1. The universe is isotropic and homogeneous at large scales.
2. Spatially flat (WMAP results) : 3. It is ever existing, No singularity
4. The universe is always large enough so that classical description of space-time is adequate. 5. The universe may contain exotic matter so that energy condition may be violated.
6. The universe is accelerating (Type Ia Supernovae data)
02.002.1 t
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EOSThe Einstein equations for a flat universe in RW-
metric
Making use of the EOS we obtain
On integration
1) If B < 0 Singularity 2) If B > 0 and A > -1 Non-singular (EU)
21
BAp
2
2
3aa
2
2
2aa
aap
03)13(2 2
2
aaB
aaA
aa
)1(32
23
32
213)(
AtB
eB
Ata
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Composition of the Emergent Universe :
Using EOS we get,
This provides us with indications about the components of energy density in EU
3 0d apdt a
2
21321
1
A
a
KBA
a
321132
2
21322
2 11
11
21
AA aAK
aAKB
AB
321132
2
21322
2 11
11
11
pppaA
AK
aAAKB
ABp AA
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COMPOSITION OF UNIVERSAL MATTER FOR SOME VALUES OF A
Dark EnergyExotic MatterRadiation
Dark EnergyExotic MatterCosmic Strings
1 0 1
Dark EnergyExotic MatterStiff matter
0 0
Dark EnergyExotic MatterDust
A BKunitin
1 2
2
BKunitin
nCompositio
31
31
289a
a29
321a
23
8
2
a
31
32
21
489a
249a
641a
3
1a
31
31
121
2
A
A3
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The suitability of our model studied: Brane World Scenario 1) A. Banerjee, T. Bandyopadhyay, S. Chakraborty, Grav. Cosmo 13, 290 (2007) 2) A. Banerjee, T. Bandyopadhyay, S. Chakraborty, GRG 26, 075017 (2008)
Phantom & Tachyon Field 3) U. Debnath, CQG 25, 205019 (2008)
Non-linear Sigma model 4) A. Beesham, S. V. Chervon, S. Maharaj CQG 26, 075017 (2009)
EU with GB term :
5) BCP & SG (GRG 42, 795,2010)
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Field Equations
Hubble Parameter in terms of Redshift (z)
dtdz
zzH
11)(
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Components of matter and dark energy are conserved separately. So we can use energy conservation equation together with EOS to obtain the expression for energy density.
where ‘K’ is a constant of integration and ‘K > 0’ For convenience we re-write the expression for
energy density.
2
2)1(31
11
Aemu
a
KAA
B
2
2)1(3
10
A
ssemuemu
a
AA
2
10
A
BKemu
20
11 emu
s ABA
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Finally, using Friedmann equation, we can express Hubble Parameter for the model in terms of redshift parameter.
Here represents baryonic energy density and represents the energy density of the exotic fluid (the suffix ‘0’ signifies present values).
0b
0emu
0 0
0 0
1/223( 1)/23
0
1( ) 1 1
,1
A
b b
b emu
B K zH z H z
B K
where
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CONSTRAINT FROM H(Z)-Z DATA : Hubble parameter, as can be seen, is a function of
some variables.
Remember that ‘K’ enters the theory as an integration constant and we are more concerned about finding suitable range of values for A and B for a physically viable cosmological model. For a fixed value of ‘K’ these two parameters can be constrained on ‘A-B’ plane simply minimizing a function.
2/122/)1(3
3
2200
2
111,,,
,
,,,,,,,
00
KBzKBzzKBAE
where
zKBAEHzKBAHH
A
bb
zH 2
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2
00
2 )(,,,,,,,,z
obszH
zHzKBAHHzKBAH
Ho is not important for our analysis so we marginalize over it and obtain probability distribution function in terms of ‘A, B and K’ only.
2
),,,,(exp),,( 02
00zKBAHHPdHKBAL zH
Here is the prior distribution function for present value of the Hubble parameter. We consider Gaussian prior here with .
0HP
8720 H
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We use Stern data set here to constrain the parameters.
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Blue(solid)-95%Red (dotted) -99%
Best fit:A=0.122B=-0.0823
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JOINT ANALYSIS WITH H(Z)-Z DATA AND BAO PEAK PARAMETER : The value of the BAO peak parameter (A)
is independent of cosmological models and for a flat universe it can be written as :
A
where, and
A= 0.469 ± 0.017
3/2
1
0
3/11
1
)()(
zzE
dz
zE
z
m
2)/(11 BKBbbm 035.01 z
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We define
and for joint analysis we consider
2
22
017.0469.0A
BAO
222int BAOzHjo
)(0114.00078.0,0500.02757.0 : level confidence 99% Upto)(0116.00077.0,0306.03053.0 : level confidence % 95 Upto
redBABlueBA
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Blue(solid)-95%Red (dotted) -99%
Best fit:A=0.0094B=-0.1573
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JOINT ANALYSIS WITH H(Z)-Z, BAO AND CMB SHIFT PARAMETER : CMB shift parameter (R) is defined by :
We consider with
lsz
m HzHdz
0 0/)'('R
03.070.1R us gives data WMAP7 .scattering lastof surface the at redshift the is z where ls
2
22
03.0700.1R
CMB
2222CMBBAOzHTot
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From this analysis we find new constraints :
0.0360 0.0005
0.0083 B 0.0125
0.0328 0.0024 0.0086 0.0120
0.0176, 0.0102
A
AB
A B
Unto 99% confidence level :
Upto 95% confidence level :
Best Fit value :
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Blue(solid)-95%Red (dotted) -99%
Best fit:A=0.0102B=-0.0176
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SOME COSMOLOGICAL PARAMETERS : Density parameter
meff
DEeff
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Effective EOS parameter :IN
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Black (solid) – Best Fit Blue(dotted) – 95 % Red (dashed)- 99%
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Deceleration parameter :IN
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Black (solid) – Best Fit Blue(dotted) – 95 % Red (dashed)- 99%
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Compare with SN Ia data :IN
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Blue Points – ObservationSolid Line - Theoretical
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EU WITH DE, EXOTIC MATTER AND DUST : Let us get back to the original work by
Mukherjee et. al. As was seen in Table. Value of the parameter
‘A’ in the EOS ( ) selects a specific composition of matter energy content of the universe.
For ‘ ‘ the universe contains dark energy, exotic matter and dust.
1/2Bp A
0A
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EU WITH…. Our aim is to see if we can find a range of values for
the model parameters in an observationally viable scenario !
The Friedmann equation can be written for any ‘A’ as:
where and The as previously shown we can define for Stern
data set
32 2 3( 1)2( 1)
0 1 2( ) (1 ) (1 ) AAconstH z H z z
c
3( 1) (3( 1)2
1 2( ) (1 ) (1 )A A
constz z z
22 0
0 2
( ( , , , ) ( ))( , , , , ) obsstern
z
H H B K z H zH A B K z
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CONSTRAINTS FROM OBSERVED HUBBLE DATA (STERN) :
For analysis with Stern data :
0.003 < B < 0.59960.303 < K < 0.63
Within 68.3% confidence
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Blue (Solid) – 68.3%Pink (Dotted) – 95 %Green (Dashed) – 99%
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FROM STERN + BAO DATA :
From joint analysis with Stern and BAO data:
0.009 < B < 0.6060.3126 < K <0.6268
Within 68.3% confidence.
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OTHER COSMOLOGICAL PARAMETERS:
Evolution of density
Evolution of effective EOS parameter :Blue- Best fitRed-68.3%Green-95 %Thick-99%
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DENSITY PARAMETERS :
Here
The model can permit
Within 68.3% confidence.
1 d e
0.72
For details : Paul, Ghose & Thakur, MNRAS, 413, 686 (2011)
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onfronting Particle cosm
ology … IU
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ug. 10-12, 2011)
Blue– 68.3%Pink– 95.4 %Green– 99.9%
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OTHER COMPOSITIONS :IN
DO
-UK
Sem
inar on Confronting P
article cosmology …
IUC
AA
(Aug. 10-12, 2011)
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DENSITY PARAMETERS FOR OTHER CASES:
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eminar on C
onfronting Particle cosm
ology … IU
CA
A (A
ug. 10-12, 2011)
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Discussion :
The emergent universe scenario are not isolated solutions they may occur for different combination of matter and radiation.
In the Ellis et al model the universe spends a period in the Einstein Static state before an early inflation takes over. In our model we obtained solution of the Einstein equations, which evolves from a static state in the infinite past to be eventually dominated by cosmological constant.
With GB-term we determine the coupling of the dilaton field which admits EU scenario.
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onfronting Particle cosm
ology … IU
CA
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ug. 10-12, 2011)
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CONTD. :
Matter required to realize an EU is determined.
In EU inflationary stage as well as late acceleration can be accommodated
Particle creation may occur at a phase when Hubble parameter varies slowly (early inflationary phase).
Einstein’s static universe permitted in this theory is unstable
We determine the allowed range of values of the EOS parameter using different observational data. Using H(z) vrs. Z data (Stern et al. Data), BAO (Ries et al). We also took the shift parameter predicted from CMBR data. To determine the EOS parameters.
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ug. 10-12, 2011)
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We have compared magnitude (μ) vs redshift (z) curves obtained in our model with that obtained from observational data (SNeIa- Wu et al..).
We found that an accelerating universe can be accommodated in EU which is permitted in the presence of exotic matter (decided by EOS parameter A).
IND
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eminar on C
onfronting Particle cosm
ology … IU
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THANK YOU
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eminar on C
onfronting Particle cosm
ology … IU
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A (A
ug. 10-12, 2011)