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31 - Cosmic Axion Bose-Einstein Condensation

from Part V - Condensates in Astrophysics and Cosmology

Published online by Cambridge University Press:  18 May 2017

By
N. Banik  and
P. Sikivie
Edited by
Nick P. Proukakis ,
David W. Snoke  and
Peter B. Littlewood
N. Banik
Affiliation:
University of Florida, Gainesville
P. Sikivie
Affiliation:
University of Florida, Gainesville
Nick P. Proukakis
Affiliation:
Newcastle University
David W. Snoke
Affiliation:
University of Pittsburgh
Peter B. Littlewood
Affiliation:
University of Chicago
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Information
Universal Themes of Bose-Einstein Condensation , pp. 608 - 619
Publisher: Cambridge University Press
Print publication year: 2017

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References

[1] 't Hooft, G. 1976a. Symmetry breaking through Bell-Jackiw anomalies. Phys. Rev. Lett., 37, 8–11.Google Scholar
[2] 't Hooft, G. 1976b. Computation of the quantum effects due to a four-dimensional pseudoparticle. Phys. Rev., D 14, 3432–3450.Google Scholar
[3] Jackiw, R., and Rebbi, C. 1976. Vacuum periodicity in a Yang-Mills quantum theory. Phys. Rev. Lett., 37, 172–175.Google Scholar
[4] Callan, C. G., Jr., Dashen, R. F., and Gross, D. J. 1976. The structure of the gauge theory vacuum. Phys. Lett., B 63, 334–340.Google Scholar
[5] Baker, C. A., Doyle, D. D., Geltenbort, P., Green, K., van der Grinten, M. G. D., et al. 2006. An improved experimental limit on the electric dipole moment of the neutron. Phys. Rev. Lett., 97, 131801.Google Scholar
[6] Kim, J. E., and Carosi, G. 2010. Axions and the strong CP problem. Rev. Mod. Phys., 82, 557–602.Google Scholar
[7] Peccei, R. D., and Quinn, H. R. 1977. CP conservation in the presence of instantons. Phys. Rev. Lett., 38, 1440–1443.Google Scholar
[8] Peccei, R. D., and Quinn, H. R. 1977. Constraints imposed by CP conservation in the presence of instantons. Phys. Rev., D 16, 1791–1797.Google Scholar
[9] Vafa, C., and Witten, E. 1984. Parity conservation in QCD. Phys. Rev. Lett., 53, 535.Google Scholar
[10] Weinberg, S. 1978. A new light boson? Phys. Rev. Lett., 40, 223–226.Google Scholar
[11] Wilczek, F. 1978. Problem of strong p and t invariance in the presence of instantons. Phys. Rev. Lett., 40, 279–282.Google Scholar
[12] Preskill, J., Wise, M. B., and Wilczek, F. 1983. Cosmology of the invisible axion. Phys. Lett., B 120, 127–132.Google Scholar
[13] Abbott, L. F., and Sikivie, P. 1983. A cosmological bound on the invisible axion.Phys. Lett., B 120, 133–136.Google Scholar
[14] Dine, M., and Fischler, W. 1983. The not so harmless axion. Phys. Lett., B 120, 137–141.Google Scholar
[15] Sikivie, P. 2008. Axion cosmology. Lect. Notes Phys., 741, 19–50.Google Scholar
[16] Sikivie, P., and Yang, Q. 2009. Bose-Einstein condensation of dark matter axions. Phys. Rev. Lett., 103, 111301.Google Scholar
[17] Erken, O., Sikivie, P., Tam, H., and Yang, Q. 2012. Cosmic axion thermalization. Phys. Rev., D 85, 063520.Google Scholar
[18] Semikoz, D. V., and Tkachev, I. I. 1997. Condensation of bosons in kinetic regime. Phys. Rev., D 55, 489–502.Google Scholar
[19] Berges, J., and Jaeckel, J. 2014. Far from equilibrium dynamics of Bose-Einstein condensation for axion dark matter.
[20] Banik, N., and Sikivie, P. 2013. Axions and the galactic angular momentum distribution. Phys. Rev., D 88, 123517.Google Scholar
[21] Natarajan, A., and Sikivie, P. 2006. The inner caustics of cold dark matter halos. Phys. Rev., D 73, 023510.Google Scholar
[22] Sikivie, P. 1998. Caustic rings of dark matter. Phys. Lett., B 432, 139–144.Google Scholar
[23] Sikivie, P. 1999. The caustic ring singularity. Phys. Rev., D 60, 063501.Google Scholar
[24] Duffy, L. D., and Sikivie, P. 2008. The caustic ring model of the Milky Way halo. Phys. Rev., D 78, 063508.Google Scholar
[25] Sikivie, P. 2011. The emerging case for axion dark matter. Phys. Lett., B 695, 22–25.Google Scholar
[26] van den Bosch, F. C., Burkert, A., and Swaters, R. A. 2001. The angular momentum content of dwarf galaxies: new challenges for the theory of galaxy formation. Mon. Not. Roy. Astron. Soc., 326, 1205.Google Scholar
[27] Navarro, J. F., and Steinmetz, M. 2000. The core density of darkmatter halos: a critical challenge to the lambda-cdm paradigm? Astrophys. J., 528, 607–611.Google Scholar
[28] Burkert, A., and D'Onghia, E. 2004. Galaxy formation and the cosmological angular momentum problem. Astrophys. Space Sci. Libr., 319, 341.Google Scholar

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