hunting for chameleons centre for theoretical cosmology university of cambridge moriond 2008...
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Hunting for Chameleons Hunting for Chameleons
Centre for Theoretical CosmologyCentre for Theoretical CosmologyUniversity of CambridgeUniversity of Cambridge
Moriond 2008 Moriond 2008
astro-ph/0309300 PRL J. Khoury and A.W astro-ph/0309411 PRD J. Khoury and A.Wastro-ph/0408415 PRD P. Brax, C. van de Bruck, J.Khoury, A. Davis and A.W hep-ph in progress A. Chou, J. Steffen, W. Wester, A. Uphadye and A.Wastro-ph in progress A. Uphadye and A. W
Amanda WeltmanAmanda Weltman
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PlanPlan• Motivation - Theoretical + Observational
• Chameleon idea and thin shell effect
• Predictions for tests in space
• Dark Energy Candidate
• Quantum vacuum polarisation experiments
• The GammeV experiment and Chameleons
We can learn about fundamental physics using low energy and low cost techniques.
See Mota talk
See Mota talk
See Mota talk
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• Massless scalar fields are abundant in String and SUGRA theories• Massless fields generally couple directly to matter with gravitational strength
• Unacceptably large Equivalence Principle violations
• Coupling constants can vary
• Masses of elementary particles can vary
Gravitational strength coupling+Light scalar field
MotivationMotivation
Tension between theory and observationsOpportunity! - Connect to Cosmology
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Solutions?Solutions?
• String loop effects Damour & Polyakov
• Approximate global symmetry Carroll
• Invoke a potential
1. Suppress the coupling strength :
2. Field acquires mass due to some mechanism :
• Chameleon Mechanism Khoury & A.W• Flux Compactification KKLT• Special points in moduli space - new d.o.f become light Greene, Judes, Levin, Watson & A.W
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Chameleon EffectChameleon Effect
Mass of scalar field depends on local matter density
In region of high density mass is large EP viol suppressed
In solar system density much lower fields essentially free
On cosmological scales density very low m ~ H0
Field may be a candidate for acc of universe
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IngredientsIngredients
Matter Fields
Reduced Planck Mass
Einstein Frame MetricConformally Coupled
Potential is of the runaway form
Coupling to photons
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Effective Effective PotentialPotential
Equation of
motion :
Dynamics governed by Effective potential :
Energy density in the ith form of matter
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Predictions for Tests in Predictions for Tests in SpaceSpace
Different behaviour in space
STEP ~ 10-18
GG ~ 10-17
MICROSCOPE ~ 10-15
Tests for UFF
Near- future experiments in space :
We predict
New Feature !!
SEE Capsule
Corrections of O(1) to Newton’s Constant
Eöt-Wash Bound < 10-13
RE/RE< 10-710-15 <
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Strong CouplingStrong Coupling
Thin shell suppression
Remember :
Effective coupling is independent of !!
If an object satisfies thin shell condition - the force is independent independent
Lab experiments are compatible with large - strong couplingstrong coupling!!
Thin shell possible in space suppress signal
Mota and ShawStrong coupling not ruled out by local experiments!
>> 1 more likely to satisfy thin shell condition
Strong coupling is not ideal for space tests - loophole
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Coupling to PhotonsCoupling to Photons
Introduces a new mass scale :
Effective potential :
We can probe this term in quantum vacuum experiments
• Use a magnetic field to disturb the vacuum• Probe the disturbance with photons• Expect small birefringence• Polarisation : Linear elliptical
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To explain unexpected birefringence and dichroism results
requires and
Conflicts with astrophysical bounds e.g. CAST (solar cooling)
Chameleons - naturally evade CAST bounds and explain PVLASDavis, Brax, van de Bruck
(g = 1/M)
(Polarizzazione del Vuoto con LASer)PVLASPVLAS
Too heavy to produce CAST bounds easily satisfied
But +
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GammeVGammeV
“ [Photon]-[dilaton-like chameleon particle] regeneration using a "particle trapped in a jar" technique “ - http://gammev.fnal.gov
Idea :• Send a laser through a magnetic field
• Photons turn into chameleons via F2 coupling
• Turn of the laser
• Chameleons turn back into photons
• Observe the afterglow
Failing which - at least rule out chunks of parameter space!
A. Chou, J. Steffen, A. Uphadye, A.W. and W. Wester
See also - Gies et. Al. + Ahlers et. Al.
Alps at DESY, LIPSS at JLab, OSQAR at CERN, BMV, PVLAS
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GammeVGammeV
QuickTime™ and aTIFF (Uncompressed) decompressor
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a) Chameleon production phase: photons propagating through a region of magnetic field oscillate into chameleons
Nd:YAG laser at 532nm, 5ns wide pulses, power 160mJ, rep rate 20Hz
Tevatron dipole magnet at 5T
PMT with single photon sensitivity
Glass window
b) Afterglow phase: chameleons in chamber gradually decay back into photons and are detected by a PMT
• Photons travel through the glass
• Chameleons see the glass as a wall - trapped
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AfterglowAfterglow
QuickTime™ and aTIFF (Uncompressed) decompressor
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QuickTime™ and aTIFF (Uncompressed) decompressor
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Decay time vs couplingDecay time vs coupling Afterglow vs timeAfterglow vs time
B = 5T, L = 6M, E = 2.3eV
Transition probability :
Flux of photons :
Integration time:
Afterglow rate:
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ComplicationsComplications• Not longitudinal motion - chameleons and photons bounce• absorption of photons by the walls• reflections don’t occur at same place
• Photon penetrates into wall by skin depth• Chameleon bounces before it reaches the wall
Phase difference at each reflection. V dependent
• Other loss modes. Chameleon could decay to other fields?• Fragmentation?
Data Analysis is under way!
• Bounds from Astrophysics and Cosmology A.W and A. Uphadye in progress
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Conclusions/OutlookConclusions/Outlook
• Complementary Complementary tools of probing fundamental physics
• SpaceSpace tests of gravity
• Intriguing cosmological consequencescosmological consequences : chameleon could be causing current accelerated expansionaccelerated expansion
• LabLab tests can probe a range of parameter space that is complementarycomplementary to space tests (qm vacuum and casimir)
• Chameleon fieldsChameleon fields: Concrete, testable predictions
A lot to learn from probes of the low energy low energy frontierfrontierusing spare parts from the high energy high energy frontierfrontier
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SupplementarySupplementary
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Constraints on Model Constraints on Model ParametersParameters
+
Coincides with Energy scale of Dark Coincides with Energy scale of Dark EnergyEnergy
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Fifth ForceFifth Force5th Force:
Separation
Strength of interaction,
Potential :
Range of interaction
Thin shell
Require both earth and atmosphere display thin shell effect
Hoskins et. Al. < 10-3
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Quantum VacuumQuantum Vacuum
• Use a magnetic field to disturb the vacuum• Probe the disturbance with photons
Classical Vacuum Quantum Vacuum
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BirefringenceBirefringence
Quantum vacuum behaves like a birefringent medium
Vacuum region
Linearly polarised light
• Different index of refraction for different components of polarisation
• Different components of polarisation vector travel with different velocity• Result: same amplitude but out of phase• Polarisation : Linear elliptical
Elliptically polarised light
http://www.ts.infn.it/physics/experiments/pvlas/
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DichroismDichroismDifferential absorption of polarisation components
• One component of polarisation vector preferentially absorbed• Result: same phase but different amplitude• Polarisation : Rotation in polarisation plane
In vacuum :• Birefringence expected to be v. small• No dichroism expected
PVLAS : anomolous signals for both rotation and ellipticity
New Physics?
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PVLASPVLAS(Polarizzazione del Vuoto con LASer)
ALP interpretation photon splits into neutral scalar
pseudoscalar scalar
or
: Angle betw pol and B
Extract information about m and g and about parity!
Ellipticity:
Rotation:
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Cosmological EvolutionCosmological Evolution
What do we need?
• attractor solution
If field starts at min, will follow the min
• Slow rolls along the attractor
• must join attractor before current epoch
• Variation in m is constrained to be less than ~ 10%. Constrains BBN the initial energy density of the field.
Weaker bound than usual quintessence
Davis, Brax, van de Bruck, Khoury and A.W.