alternatives to dark energy and dark matter and their implications · 2017. 6. 6. · •evidence:...
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Alternatives to Dark Energy and Dark Matterand their implications
Orfeu Bertolami
Instituto Superior TécnicoDepartamento de Física
(http://alfa.ist.utl.pt/~orfeu/homeorfeu.html)
International Workshop on Advances in PrecisionTests and Experimental Gravitation in Space
28-30 September, Florence, Italy
Evidence for Dark Energy and Dark Matter
Modified Gravity Models and their observational implications
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General Relativity( )
• GR has survived all tests so far…[C. Will, gr-qc/0510072; S. Turyshev, M. Shao, K. Nordtvedt, gr-qc/0601035][O.B., J. Páramos, S. Turyshev, gr-qc/0602016]
• Parametrized Post-Newtonian Formalism (U-gravitational potential, velocity)
• Local (solar system) tests
Mercury´s perihelion shift: [Shapiro 1990]
Lunar Laser Ranging: [Williams, Turyshev, Boggs 2004]
LBLI light deflection: [Eubanks et al. 1997]
Cassini Experiment: [Bertotti, Iess, Tortora 2003]
...,221 200 +−+−= UUg β ...)34(
21
0 ++−= ii vg γ...,)21( ++= ijij Ug δγ
iv
310312 −×<−− βγ410)5.44.4(34 −×±=−−γβ
41041 −×<−γ510)3.21.2(1 −×±=−γ
1== βγ
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Cassini-Huygens Radiometric Experiment
B. Bertotti, L. Iess and P. Tortora, Nature 425 (2003) 374
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(Partially) Unconfirmed predictions:
Gravitational waves – PSR B1913+16(LIGO, …, LISA)
Lense-Thirring Effect(Gravity Probe-B)
BepiColombo Mission to Mercury (ESA/ISAS)
669
2
2 105,105.2,10 −−− ×<∆×<∆<∆ββ
γγ
JJ
γβηηη 21,102 1
5
1
1 +−−=×<∆ −
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10500 vacua
Turyshev et al., gr-qc/0506104
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• Outstanding challenges (GR + Quantum Field Theory)– Singularity Problem– Cosmological Constant Problem– Underlying particle physics theory for Inflation
• Theory provides in the context of the Big Bang model an impressivepicture of the history of the Universe– Nucleosynthesis ( , )– Cosmic Microwave Background Radiation– Large Scale Structure– Gravitational lensing– …
• Required entities (missing links):– Dark Matter– Dark Energy
Cosmological Tests of General Relativity
4<νN 001.0023.02 ±=Ω hB
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• Evidence:
Flatness of the rotation curve of galaxiesLarge scale structureGravitational lensingN-body simulations and comparison with observationsMerging galaxy cluster 1E 0657-56
• Cold Dark Matter (CDM) Model
Weakly interacting non-relativistic massive particle at decoupling
• Candidates:
Neutralinos (SUSY WIMPS), axions, scalar fields, self-interacting scalarparticles, etc.
Dark Matter
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• Evidence:Dimming of type Ia Supernovae with z > 0.35Accelerated expansion (negative deceleration parameter):
[Perlmutter et al. 1998; Riess et al. 1998, …]
• Homogeneous and isotropic expanding geometryDriven by the vacuum energy density ΩΛ and matter density ΩM
Equation of state:
• Friedmann and Raychaudhuri equations imply:
q0 < 0 suggests an invisible smooth energy distribution
• Candidates:Cosmological constant, quintessence, more complex equations of state,etc.
Dark Energy
ωρ=p 1≤ω
47.020 −≤−≡a
aaq&
&&
( ) ΛΩ−Ω+= mq 1321
0 ω
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Supernova Legacy Survey (SNLS)
[Astier et al., astro-ph/0510447]
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SNLS - SDSS
13.019.002.1 +
−−=ω
)(054.0)(090.0023.1 syststat ±±−=ω
[Riess et al. 2004]
[Astier et al. 2005]
)(007.0)(021.0271.0 syststatm ±±=Ω
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D.N. Spergel et al., astro-ph/0603449
WMAP 3 Year Results
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WMAP 3 Year Results
WMAP 3 + SNLS:
ρω p=
D.N. Spergel et al., astro-ph/0603449
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D.N. Spergel et al., astro-ph/0603449
WMAP 3 Year Results
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Gamma-ray bursts and Dark Matter
Effect of the increase of high red shift GRBs (90, 500, 1000) for XCDM models
[O.B., Silva, Mon. Not. R. Ast .Soc. 365 (2006) 1149]
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Gamma-Ray Bursts Telescope
SWIFT
NASANovember 2004
Dark Matter ProbeO.B., P. Silva, MNRAS (2006)
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AA UniverseUniverse dominateddominated byby darkdark componentscomponents
Cosmic Concordance(ΛCDM)
ΩΛ 0.72
Ωm 0.28
Ωk 0
≅
≅
≅
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Quintessence
• V0 exp (-λφ) [Ratra, Peebles 1988; Wetterich 1988; Ferreira, Joyce 1998]
• V0 φ-α , α > 0 [Ratra, Peebles 1988]
• V0 φ-α exp ( λφ 2 ) , α > 0 [Brax, Martin 1999, 2000]
• V0 [exp ( Mp / φ ) – 1 ] [Zlatev, Wang, Steinhardt 1999]
• V0 ( cosh λ φ - 1 )p [Sahni, Wang 2000]
• V0 sinh-α ( λφ ) [Sahni, Starobinsky 2000; Urena-López, Matos 2000]
• V0 [ exp ( βφ ) + exp ( γφ ) ] [Barreiro, Copeland, Nunes 2000]
• Scalar-Tensor Theories of Gravity
[Uzan 1999; Amendola 1999; O.B., Martins 2000; Fujii 2000; ...]
• V0 exp( -λφ ) [ A + ( φ - B )2 ] [Albrecht, Skordis 2000]
• V0 exp( -λφ ) [ a + ( φ - φ0 )2 + b ( ψ - ψ0 )2+ c φ ( ψ - ψ0 )2 +d ψ ( φ - φ0 )2 ][Bento, O.B., Santos 2002]
Varying vacuum energy models[Bronstein 1933; O.B. 1986; Ratra, Peebles 1988; Wetterich 1988; …]
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Dark Energy and Dark Matter
“Quintessential Inflation”[Peebles, Vilenkin 1999; Dimopoulos, Valle 2002; O.B., Duvvuri 2006, …]
Dark Energy – Dark Matter interaction[Amendola 2000]
Dark Energy – Dark Matter Unification[Kamenschik, Moschella, Pasquier 2001]
[Bilic, Tupper, Viollier 2002; Bento, O.B., Sen 2002]
Λ
Inflation Dynamics
DM
DE
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Generalized Chaplygin gasmodel
Generalized Chaplygin gas
: Chaplygin gas
Dust : stiff matter De Sitter
• Unified model for Dark Energy and Dark Matter
Generalized d-brane
: d-brane
[Bento, O.B., Sen 2002]
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Dark Energy - Dark Matter Unification:Generalized Chaplygin Gas Model
– CMBR Constraints [Bento, O. B., Sen 2003, 2004; Amendola et al. 2004]
– SNe Ia [O. B., Sen, Sen, Silva 2004; Bento, O.B., Santos, Sen 2005]
– Gravitational Lensing [Silva, O. B. 2003]
– Structure Formation *
[Sandvik, Tegmark, Zaldarriaga, Waga 2004; Bento, O. B., Sen 2004; Bilic, Tupper, Viollier 2005; …]
– Gamma-ray bursts [O. B., Silva 2006]
– Cosmic topology [Bento, O. B., Rebouças, Silva 2006]
– Inflation [O.B., Duvvuri 2006]
Background tests:
,6.0≤α 85.065.0 ≤≤ sA αρ +≡ 10Ch
sAA
Structure formation: 2.0≤α
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Density constrast δ(aeq) for different valuesof α, as compared with ΛCDM.
[Bento, O. B., Sen 2002]
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The growth factor m(y) as a function of thescale factor a. The solid, dotted, dashed anddash-dot lines correspond to α = 0, 0.2, 0.4,0.6 respectively. It is assumed:Ωdm0 = 0.25, ΩΛ0 = 0.7, Ωb0 = 0.05 and α = 0.2
The bias b as a function of the scale factor a.The solid, dotted, dashed and dash-dot linescorrespond to α = 0, 0.2, 0.4, 0.6 respectively.It is assumed: Ωdm0 = 0.25, ΩΛ0 = 0.7,Ωb0 = 0.05 and α = 0.2
[Bento, O. B., Sen 2004]
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Contours for parameters b and m in the Ωm – αplane. Solid lines are for b whereas dashedlines are for m. For b, contour values are 0.98,0.96, ..., 0.9 from left to right. For m, contourvalues are 0.6, 0.65, ..., 0.8 from left to right.
Joint 68% CL confidence regions forModel II using both SNe, gravitationallensing statistics and CMBR constraints.
[Bento, O. B., Sen 2004] [Silva, O. B. 2003]
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Pioneer 10 anomalous decelerationPioneer 10/11 anomalous deceleration (20 AU – 70 AU):
[Anderson, Laing, Lau, Liu, Nieto, Turyshev 2002]
Cause:
Systematical effects ?Thermal effects ? [Scheffer 2003]Kuiper Belt gravity ? No ! [Anderson et al. 2002, Nieto 2005, O.B., Vieira 2005]Scalar field ? [O.B., Páramos 2004]Post-Newtonian model with running coupling consts. ? [Jaekel, Reynaud 2005]…
Deceleration due to dragging:Pio
PioPioMedPio m
AvOa2
.)1( ρ=
319.
2 /103241,9.5,/2.126.11 cmgkgmmAskmv MedPioPioPio−×=⇒==−= ρ
PioDMHaloDM aacmg 5324 102/106 −− ×≅⇒×≅≅ ρρDM
DE PioDEDE aacmg 11330 102/106 −− ×−≅⇒×≅ρ
210 /10)3.15.8( smaPio−×±=
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A Mission to Test the Pioneer Anomaly
Pioneer Science Team, gr-qc/0506139
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Dark Matter Detection[Baudis 2005]
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Merging Galaxy Cluster 1E 0657-56[Clowe et al., astro-ph/0608407]
“Bullet” Cluster
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Self-Interacting Dark Matter
Higgs decay width
[Bento, O.B., Rosenfeld, Teodoro 2000][Silveira, Zee 1988]
[Bento, O.B., Rosenfeld 2001]
[Spergel, Steinhardt 2000]
Model:
Motivation: “cuspy core” problem
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[Bento, O.B., Rosenfeld 2001]
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Direct Dark Energy Detection ?• Spectrum noise in Josephson junctions [Beck, Mackey 2005]
• No! Zero-energy fluctuations are not measurable …
[Jetzer, Straumann 2005]
• DE-gauge field coupling: variation of the “fine structure constant”[Olive, Pospelov 2002; Gardner 2003; …]
[O.B., Lehnert, Potting, Ribeiro 2003; Bento, O.B., Santos 2004]
Hzm
GeVch
cDEc12
34
3 10)05.069.1()4.09.3( ×±≅⇒±=≅ νρνπ
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Variation of the electromagnetic coupling via direct Q-electromagnetic interaction
[ Bento, O.B., Santos 2004]
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Oklo Meteorites
[Bento, O.B., Santos 2004]
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Large Dark Energy Surveys
Supernovae Standard CandlesLuminosity Distance
Cosmic Shear Evolution of DM perts.
Baryon Acoustic OscillationsStandard rulerAngular diameter distance
SNAP, DUNE…
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Dark MatterModified Newtonian Dynamics (MOND)[Milgrom 1983, Bekenstein, Milgrom 1984, ..., Bekenstein 2004]
Motivation: Flatness Rotation Curve of Galaxies
a0 ≈ 1.2 × 10 -10 m/s2 - universal acceleration
Tully-Fisher Law: as
TeVeS2 version: F-function problem
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MOND
Tensor-Vector-Scalar field theory, S = Sg + Ss + Sv + Sm:
Conformal transformation to the physical metric:
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Scalar field:
Vector field:
• Timelike vector tracks the metric
consistent with eq. of motion
• Einstein eq.
MOND in Post-Newtonian regime
[Bekenstein 2004]
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• Parametrization of the metric
• Expansion of Einstein eq. up to order r − 4
• Solution:
• Transformation into physical, isotropic PPN metric yields
(like GR !)
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• Assume
• Solution:
Dynamic solution for the vector field
, γ = 1
Constraint |β - 1| < 6 × 10-4allows for k < kup
[O.B., Páramos, to appear]
(different from GR!)
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Consistency with Cosmology
i) (Potentially) compatible
[Skordis, Mota, Ferreira, Boehm 2005]• CMBR
ii) Problem with the third peak[Slosar, Melchiorri, Silk 2005]
• Gravitational lensing – great potential for testing[Zhao, Bacon, Taylor, Horne 2005]
2102×≅Λ
MOND
CDM
PP
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Can MOND take a bullet ?
• Doubled and tripled-centered baryonic systems
• Multi-field TeVeS gravity
[Angus, Famaey, Zhao 2006]
Newtonian (baryons + DM) (full)MOND (dashed)TeVeS (scalar field) (dot-dashed)
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Dark EnergySelf-accelerating gravity models
[Dvali, Gabadadze, Porrati 2000; Deffayet 2001; Freese, Lewis 2002; … ]
Motivation: 5D Braneworlds
E.g. BPS-branes (Randall-Sundrum, Dilatonic): bulk scalar field
2σσφ −∂=U
φσ
σα
∂∂
≡1
PPN:
[Palma 2006]
2
341 αγ −=−
( )21
2
911 ααβ −=−
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Self-accelerating gravity models
• “Infrared” Modifications of Gravity (rc= 3 Gpc – crossover constant):
• PPN:
• Lense-Thirring effect unchanged [Iorio 2006]
• DGP [Dvali, Gabadadze, Porrati 2000][Deffayet 2001]
• DT [Dvali, Turner 2003]
• Cardassian [Freese, Lewis 2002]
1,1 == γβ
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Cosmological Constraints
[Bento, O.B., Rebouças, Santos 2006]
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Cosmological Constraints
[Eisenstein et al. 2005]
• Baryon Acoustic Oscillations
LRG (SDSS):
• CMBR Shift Parameter ( )
WMP 3:
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Scalar-Tensor Theories of Gravity
Binary Pulsars (B1913+16; J1141-6545)
[Esposito-Farese 2004]
20
0
121ααγ
+−=−
1.111 <
−−
γβ
5.4,060.0 00 −>< βα22
0
020
)1(1
αβαβ
+=−
⇒
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Conclusions
• Resolving the dichotomy DE - DM X Modified Gravity will requirea concerted effort and a whole new programme of dedicatedexperiments in space:
- To observe SNe (SNe “factories”), gamma-ray bursts,gravitational lensing, cosmic shear, etc, so to characterize theproperties of DE and DM, or alternatively, to find evidence forthe inadequacy of General Relativity
- To test General Relativity and examine the implications of itscontending theories or extensions (scalar-tensor theories,braneworld models, strings)
- For the search of evidence of new forces with ranges of abouthundreds AU and for resolving the Pioneer anomaly problem