Thermalization of axion dark matter
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1 Thermalization of axion dark matter Ken ichi Saikawa ICRR, The University of Tokyo Collaborate with M. Yamaguchi (Tokyo Institute of Technology) Reference: KS and M. Yamaguchi, arxiv: [hep-ph] 1/24
2 Abstract Discuss the possibility that QCD axions form a Bose-Einstein condensate (BEC) Calculate time evolution of occupation number of axions in the condensed regime Derive a formula for thermalization rate Revisit axion cosmology 2/24
3 Dark Matter Recent astrophysical observations 22% of the total energy of universe is occupied by unknown matter invisible interaction with ordinary matters is weak Physics beyond the standard model a well motivated candidate axion Strong CP problem How they are produced, and how they evolved? key to understand the nature of dark matter 3/24
4 Strong CP problem Neutron electric dipole moment time-reversal T non zero value of violation of T violation of CP Experiments: Baker et. al. (2006) θ term in Quantum chromodynamics (QCD) violates CP Theoretical estimation: Why θ is so small? 4/24
5 Peccei-Quinn mechanism Peccei, Quinn (1977) Take as a dynamical variable (field) Peccei-Quinn (PQ) symmetry breaking PQ: potential for has a minimum at (QCD effect) high T PQ low T naturally predict in our vacuum 5/24
6 Peccei-Quinn mechanism Peccei, Quinn (1977) Take as a dynamical variable (field) Peccei-Quinn (PQ) symmetry breaking PQ: potential for has a minimum at (QCD effect) high T low T naturally predict in our vacuum 5/24
7 Spontaneous breaking of continuous Peccei-Quinn symmetry at Axion Nambu-Goldstone theorem emergence of the (massless) particle axion Axion has a small mass (QCD effect) pseudo-nambu-golstone boson axion decay constant Weinberg(1978), Wilczek(1978) Tiny coupling with matter + non-thermal production good candidate of cold dark matter 6/24
8 Production mechanism Misalignment mechanism Preskill, Wise, Wilczek (1983); Abbott, Sikivie (1983); Dine, Fischler (1983) The axion mass turns on at ( ) EOM for homogeneous axion field, : scale factor of the universe behave like non-relativistic matter 7/24
9 Peculiarities of axion dark matter Non-thermal production cold dark matter Large occupation number ( : number density of axions) c.f. for WIMPs 8/24
10 Do axions form a BEC? Bose-Einstein condensate Large fraction of bosons are in the lowestenergy state Critical temperature! Assumptions 1. Particles are bosons 2. Number is conserved 3. Large occupation number 4. In thermal equilibrium 9/24
11 Do axions form a BEC? Bose-Einstein condensate Large fraction of bosons are in the lowestenergy state Critical temperature! Assumptions 1. Particles are bosons 2. Number is conserved 3. Large occupation number 4. In thermal equilibrium For axions satisfied satisfied satisfied??? 9/24
12 Thermalize if WIMPs Axions vs WIMPs axions collection of classical point particles evolution : use Boltzmann eq. wavy fields rather than point particles cannot use Boltzmann eq. 10/24
13 Previous study (1) Consider transitions between different quantum states. Two different regimes WIMPs Erken, Sikivie, Tam, Yang, PRD85, (2012) energy exchanged in the transitions transition rate particle kinetic regime axions condensed regime A transition makes sense if 11/24
14 Previous study (2) Time evolution of quantum operators in the Heisenberg picture Erken, Sikivie, Tam, Yang, PRD85, (2012) : label of the state (momentum) What about the quantum-mechanical averages? 12/24
15 Previous study (2) Time evolution of quantum operators in the Heisenberg picture Erken, Sikivie, Tam, Yang, PRD85, (2012) : label of the state (momentum) Leading contribution in the condensed regime What about the quantum-mechanical averages? 12/24
16 Previous study (2) Time evolution of quantum operators in the Heisenberg picture Erken, Sikivie, Tam, Yang, PRD85, (2012) : label of the state (momentum) reduce to Boltzmann eq. in the particle kinetic regime What about the quantum-mechanical averages? 12/24
17 Effects on cosmological parameters? Thermalization rate is enhanced in the condensed regime leads to axion BEC Thermalization rate with other species is also enhanced (?) Erken, Sikivie, Tam, Yang, PRD85, (2012); PRL108, (2012) axions and photons have thermal contact baryon-to-photon ratio at BBN effective # of neutrino d.o.f. (obs. ) Is it true? Does axion BEC conflict with standard cosmology? 13/24
18 Analysis method 14/24
19 In-in formalism Calculate expectation value of a quantum operator via perturbative expansion Weinberg, PRD72, (2005) hereafter, : axion field : number operator (label becomes discrete) (ignore axion # violating process) (1) scalar self-coupling (2) gravity 15/24
20 In state = a state which represents the coherent oscillation of axions Use a coherent state with Field amplitude classical field trajectory c.f. number state for other species (photons, baryons,...) 16/24
21 Zero modes Initial time (QCD phase transition) : amplitudes of oscillation might be uncorrelated beyond the horizon axions have non-zero (but tiny) momenta Assume plural (say ) oscillating modes for momentum distribution 17/24
22 Cosmic axion thermalization Question : how these plural oscillating modes ( zero modes ) reach thermal equilibrium? decoupled axions = each of K modes oscillates independently self-interacting axions = transition between plural modes becomes significant change the distribution 18/24
23 Evolution of occupation number for for coherent state number state First order term is relevant if (1) condensed regime (c.f. for particle kinetic regime ) (2) coherent state representation 19/24
24 Application to axion cosmology 20/24
25 Thermalization rate Thermalization rate of coherently oscillating components : number density of axions : coefficient in the interaction term scalar phi^4 gravity Exceed the expansion rate at 21/24
26 Thermalization rate Thermalization rate of coherently oscillating components : number density of axions : coefficient in the interaction term scalar phi^4 gravity Exceed the expansion rate at 21/24
27 Decoupled condensed,s condensed,g H t / t 1 22/24
28 No photon cooling Interaction with other species Assume particles are represented as a number state while First order term exactly vanishes Thermalization with other species is second order effect. BEC axions do not have thermal contact with photons does not affect cosmological parameters 23/24
29 Summary Estimate thermalization rate in the condensed regime Initial states coherent coherent coherent number number number rate 1st order in coupling (enhanced) 2nd order in coupling (negligible) 2nd order in coupling (negligible) with axions coherent state other particles (baryons, photons,...) number state Self-interaction of cold axions becomes relevant at implies the formation of axion BEC (?) Thermal contact with photons is negligible It does not modify standard cosmological parameters 24/24
30 usual a+b a+b process 1st order a+b a+b (vanish) 1st order a+a a+a (non-zero) 2nd order b+b b+b (non-zero)
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