Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
1998-02-28
Phys.Rev. D58 (1998) 043507
Physics
High Energy Physics
High Energy Physics - Phenomenology
33 pages, LATEX file with 9 PS figures
Scientific paper
10.1103/PhysRevD.58.043507
Time evolution of unstable particles that occur in the expanding universe is investigated. The off-shell effect not included in the Boltzmann-like equation is important for the decay process when the temperature becomes much below the mass of unstable particle. When the off-shell effect is taken into account, the thermal abundance of unstable particles at low temperatures has a power law behavior of temperature $T$, $\frac{\Gamma}{M}(\frac{T}{M})^{\alpha + 1}$ unlike the Boltzmann suppressed $e^{-M/T}$, with the power $\alpha $ related to the spectral rise near the threshold of the decay and with $\Gamma $ the decay rate. Moreover, the relaxation time towards the thermal value is not governed by the exponential law; instead, it is the power law of time. The evolution equation for the occupation number and the number density of the unstable particle is derived, when both of these effects, along with the cosmic expansion, are included. We also critically examine how the scattering off thermal particles may affect the off-shell effect to the unstable particle. As an application showing the importance of the off-shell effect we compute the time evolution of the baryon asymmetry generated by the heavy $X$ boson decay. It is shown that the out-of equilibrium kinematics previously discussed is considerably changed.
Joichi Izumi
Matsumoto Sh.
Yoshimura Masaki
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