Abstract
The production rate of right-handed neutrinos from a Standard Model plasma at a temperature above a hundred GeV is evaluated up to NLO in Standard Model couplings. The results apply in the so-called relativistic regime, referring parametrically to a mass M ~ πT, generalizing thereby previous NLO results which only apply in the non-relativistic regime M ≫ πT. The non-relativistic expansion is observed to converge for M ≳ 15T, but the smallness of any loop corrections allows it to be used in practice already for M ≳ 4T. In the latter regime any non-covariant dependence of the differential rate on the spatial momentum is shown to be mild. The loop expansion breaks down in the ultrarelativistic regime M ≪ πT, but after a simple mass resummation it nevertheless extrapolates reasonably well towards a result obtained previously through complete LPM resummation, apparently confirming a strong enhancement of the rate at high temperatures (which facilitates chemical equilibration). When combined with other ingredients the results may help to improve upon the accuracy of leptogenesis computations operating above the electroweak scale.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
M. Fukugita and T. Yanagida, Baryogenesis Without Grand Unification, Phys. Lett. B 174 (1986) 45 [INSPIRE].
W. Buchmüller, R. Peccei and T. Yanagida, Leptogenesis as the origin of matter, Ann. Rev. Nucl. Part. Sci. 55 (2005) 311 [hep-ph/0502169] [INSPIRE].
S. Davidson, E. Nardi and Y. Nir, Leptogenesis, Phys. Rept. 466 (2008) 105 [arXiv:0802.2962] [INSPIRE].
X.-D. Shi and G.M. Fuller, A new dark matter candidate: nonthermal sterile neutrinos, Phys. Rev. Lett. 82 (1999) 2832 [astro-ph/9810076] [INSPIRE].
L. Canetti, M. Drewes, T. Frossard and M. Shaposhnikov, Dark Matter, Baryogenesis and Neutrino Oscillations from Right Handed Neutrinos, Phys. Rev. D 87 (2013) 093006 [arXiv:1208.4607] [INSPIRE].
D. Besak and D. Bödeker, Hard thermal loops for soft or collinear external momenta, JHEP 05 (2010) 007 [arXiv:1002.0022] [INSPIRE].
A. Anisimov, D. Besak and D. Bödeker, Thermal production of relativistic Majorana neutrinos: Strong enhancement by multiple soft scattering, JCAP 03 (2011) 042 [arXiv:1012.3784] [INSPIRE].
D. Besak and D. Bödeker, Thermal production of ultrarelativistic right-handed neutrinos: complete leading-order results, JCAP 03 (2012) 029 [arXiv:1202.1288] [INSPIRE].
P.B. Arnold, G.D. Moore and L.G. Yaffe, Photon emission from ultrarelativistic plasmas, JHEP 11 (2001) 057 [hep-ph/0109064] [INSPIRE].
P.B. Arnold, G.D. Moore and L.G. Yaffe, Photon emission from quark gluon plasma: complete leading order results, JHEP 12 (2001) 009 [hep-ph/0111107] [INSPIRE].
P.B. Arnold, G.D. Moore and L.G. Yaffe, Photon and gluon emission in relativistic plasmas, JHEP 06 (2002) 030 [hep-ph/0204343] [INSPIRE].
A. Salvio, P. Lodone and A. Strumia, Towards leptogenesis at NLO: the right-handed neutrino interaction rate, JHEP 08 (2011) 116 [arXiv:1106.2814] [INSPIRE].
M. Laine and Y. Schröder, Thermal right-handed neutrino production rate in the non-relativistic regime, JHEP 02 (2012) 068 [arXiv:1112.1205] [INSPIRE].
S. Caron-Huot, Asymptotics of thermal spectral functions, Phys. Rev. D 79 (2009) 125009 [arXiv:0903.3958] [INSPIRE].
M. Laine, Thermal 2-loop master spectral function at finite momentum, JHEP 05 (2013) 083 [arXiv:1304.0202] [INSPIRE].
B. Garbrecht, F. Glowna and M. Herranen, Right-handed neutrino production at finite temperature: radiative corrections, soft and collinear divergences, JHEP 04 (2013) 099 [arXiv:1302.0743] [INSPIRE].
T. Asaka, M. Laine and M. Shaposhnikov, On the hadronic contribution to sterile neutrino production, JHEP 06 (2006) 053 [hep-ph/0605209] [INSPIRE].
M. Laine, Thermal right-handed neutrino self-energy in the non-relativistic regime, arXiv:1209.2869 [INSPIRE].
C.P. Kiessig, M. Plümacher and M.H. Thoma, Decay of a Yukawa fermion at finite temperature and applications to leptogenesis, Phys. Rev. D 82 (2010) 036007 [arXiv:1003.3016] [INSPIRE].
S. Caron-Huot, On supersymmetry at finite temperature, Phys. Rev. D 79 (2009) 125002 [arXiv:0808.0155] [INSPIRE].
P. Aurenche, F. Gelis, G. Moore and H. Zaraket, Landau-Pomeranchuk-Migdal resummation for dilepton production, JHEP 12 (2002) 006 [hep-ph/0211036] [INSPIRE].
B. Garbrecht, F. Glowna and P. Schwaller, Scattering rates for leptogenesis: damping of lepton flavour coherence and production of singlet neutrinos, arXiv:1303.5498 [INSPIRE].
J.-S. Gagnon and M. Shaposhnikov, Baryon Asymmetry of the Universe without Boltzmann or Kadanoff-Baym equations, Phys. Rev. D 83 (2011) 065021 [arXiv:1012.1126] [INSPIRE].
M. Laine, A. Vuorinen and Y. Zhu, Next-to-leading order thermal spectral functions in the perturbative domain, JHEP 09 (2011) 084 [arXiv:1108.1259] [INSPIRE].
J. Ghiglieri, J. Hong, A. Kurkela, E. Lu, G.D. Moore and D. Teaney, Next-to-leading order thermal photon production in a weakly coupled quark-gluon plasma, JHEP 05 (2013) 010 [arXiv:1302.5970] [INSPIRE].
K. Kajantie, M. Laine, K. Rummukainen and M.E. Shaposhnikov, Generic rules for high temperature dimensional reduction and their application to the Standard Model, Nucl. Phys. B 458 (1996) 90 [hep-ph/9508379] [INSPIRE].
Author information
Authors and Affiliations
Corresponding author
Additional information
ArXiv ePrint: 1307.4909
Rights and permissions
About this article
Cite this article
Laine, M. Thermal right-handed neutrino production rate in the relativistic regime. J. High Energ. Phys. 2013, 138 (2013). https://doi.org/10.1007/JHEP08(2013)138
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/JHEP08(2013)138