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Bose-Einstein Condensation of Dark Matter Axions

Bose-Einstein Condensation of Dark Matter Axions. Pierre Sikivie IDM 2010 Montpellier. I'll argue. The Dark Matter is Axions. based on PRL 103 (2009) 111301 with Qiaoli Yang, and arXiv: 1003.2426. Outline. A brief review of axion physics Cold dark matter axions form a

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Bose-Einstein Condensation of Dark Matter Axions

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  1. Bose-Einstein Condensationof Dark Matter Axions Pierre Sikivie IDM 2010 Montpellier

  2. I'll argue The Dark Matter is Axions based on PRL 103 (2009) 111301 with Qiaoli Yang, and arXiv: 1003.2426

  3. Outline A brief review of axion physics Cold dark matter axions form a Bose-Einstein condensate The inner caustics of galactic halos Tidal torque theory with ordinary CDM and with axion BEC

  4. The Strong CP Problem Because the strong interactions conserve P and CP,. The Standard Model does not provide a reason for to be so tiny, but a relatively small modification of the model does provide a reason …

  5. If a symmetry is assumed, relaxes to zero, and a light neutral pseudoscalar particle is predicted: the axion.

  6. f f a a = 0.97 in KSVZ model 0.36 in DFSZ model

  7. The remaining axion window laboratory searches cosmology stellar evolution

  8. There are two axion populations: hot and cold. When the axion mass turns on, at QCD time,

  9. Axion production by vacuum realignment V V a a initial misalignment angle

  10. Cold axion properties if decoupled number density velocity dispersion phase space density

  11. Bose-Einstein Condensation if identical bosonic particles are highly condensed in phase space and their total number is conserved and they thermalize then most of them go to the lowest energy available state

  12. why do they do that? by yielding their energy to the non-condensed particles, the total entropy is increased. BEC preBEC

  13. Thermalization occurs due to gravitational interactions at time

  14. Gravitational interactions thermalize the axions and cause them to form a BEC when the photon temperature After that

  15. In the linear regime, within the horizon, axion BEC density perturbations obey Jeans’ length

  16. In the linear regime within the horizon, axion BEC and CDM are indistinguishable on all scales of observational interest, but axion BEC differs from CDM in the non-linear regime & upon entering the horizon

  17. DM forms caustics in the non-linear regime . . x x DM particles in phase space x x x x

  18. . z Phase space distribution of DM in a homogeneous universe z for WIMPs for axions (preBEC) for sterile neutrinos

  19. The dark matter particles lie on a 3-dimensional sheet in 6-dimensional phase space . z the physical density is the projection of the phase space sheet onto position space z

  20. The cold dark matter particles lie on a 3-dimensional sheet in 6-dimensional phase space . z the physical density is the projection of the phase space sheet onto position space z

  21. Phase space structure of spherically symmetric halos

  22. Galactic halos have inner caustics as well as outer caustics. If the initial velocity field is dominated by net overall rotation, the inner caustic is a ‘tricusp ring’. If the initial velocity field is irrotational, the inner caustic has a ‘tent-like’ structure. (Arvind Natarajan and PS, 2005).

  23. simulations by Arvind Natarajan

  24. The caustic ring cross-section D -4 an elliptic umbilic catastrophe

  25. Galactic halos have inner caustics as well as outer caustics. If the initial velocity field is dominated by net overall rotation, the inner caustic is a ‘tricusp ring’. If the initial velocity field is irrotational, the inner caustic has a ‘tent-like’ structure. (Arvind Natarajan and PS, 2005).

  26. On the basis of the self-similar infall model(Filmore and Goldreich, Bertschinger) with angular momentum (Tkachev, Wang + PS), the caustic rings were predicted to be in the galactic plane with radii was expected for the Milky Way halo from the effect of angular momentum on the inner rotation curve.

  27. Effect of a caustic ring of dark matter upon the galactic rotation curve

  28. Composite rotation curve(W. Kinney and PS, astro-ph/9906049) • combining data on 32 well measured extended external rotation curves • scaled to our own galaxy

  29. Inner Galactic rotation curve Inner Galactic rotation curve from Massachusetts-Stony Brook North Galactic Pane CO Survey (Clemens, 1985)

  30. IRAS

  31. IRAS

  32. Outer Galactic rotation curve R.P. Olling and M.R. Merrifield, MNRAS 311 (2000) 361

  33. Monoceros Ring of stars H. Newberg et al. 2002; B. Yanny et al., 2003; R.A. Ibata et al., 2003; H.J. Rocha-Pinto et al, 2003; J.D. Crane et al., 2003; N.F. Martin et al., 2005 in the Galactic plane at galactocentric distance appears circular, actually seen for scale height of order 1 kpc velocity dispersion of order 20 km/s may be caused by the n = 2 caustic ring of dark matter (A. Natarajan and P.S. ’07)

  34. from L. Chemin, C. Carignan & T. Foster, arXiv: 0909.3846 Rotation curve of Andromeda Galaxy thanks to S. Boyarsky and O. Ruchaiskiy

  35. 15.4 29.2 kpc 10.3 10 arcmin = 2.2 kpc

  36. The caustic ring halo model assumes net overall rotation axial symmetry self-similarity

  37. The specific angular momentum distribution on the turnaround sphere Is it plausible in the context of tidal torque theory?

  38. Tidal torque theory neighboring protogalaxy Stromberg 1934; Hoyle 1947; Peebles 1969, 1971

  39. Magnitude of angular momentum fits perfectly ( ) G. Efstathiou et al. 1979, 1987 from caustic rings

  40. Tidal torque theorywith ordinary CDM neighboring protogalaxy the velocity field remains irrotational

  41. For collisionless particles If initially, then for ever after.

  42. Tidal torque theorywith axion BEC net overall rotation is obtained because, in the lowest energy state, all axions fall with the same angular momentum

  43. For axion BEC is minimized for given when .

  44. Self-Similarity a comoving volume

  45. Self-Similarity (yes!) time-independent axis of rotation provided

  46. Conclusions Axions differ from ordinary CDM because they form a Bose-Einstein condensate Axion BEC and CDM are indistinguishable in the linear regime inside the horizon on all scales of observational interest. If the dark matter is axions, the phase space structure of galactic halos predicted by tidal torque theory is precisely, and in all respects, that of the caustic ring model proposed earlier on the basis of observations.

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