Multifield stochastic particle production: beyond a maximum entropy ansatz

In this work, we explore non-adiabatic particle production for Nf coupled scalar fields in a time-dependent background with stochastically varying effective masses, cross-couplings and intervals between interactions. Under the assumption of weak scattering per interaction, we provide a framework for...

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Bibliographic Details
Published in:Journal of cosmology and astroparticle physics 2017-09, Vol.2017 (9), p.15-15
Main Authors: Amin, Mustafa A., Garcia, Marcos A.G., Xie, Hong-Yi, Wen, Osmond
Format: Article
Language:English
Subjects:
ASTRONOMY AND ASTROPHYSICS
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Summary:In this work, we explore non-adiabatic particle production for Nf coupled scalar fields in a time-dependent background with stochastically varying effective masses, cross-couplings and intervals between interactions. Under the assumption of weak scattering per interaction, we provide a framework for calculating the typical particle production rates after a large number of interactions. After setting up the framework, for analytic tractability, we consider interactions (effective masses and cross couplings) characterized by series of Dirac-delta functions in time with amplitudes and locations drawn from different distributions. Without assuming that the fields are statistically equivalent, we present closed form results (up to quadratures) for the asymptotic particle production rates for the Nf=1 and Nf=2 cases. We also present results for the general Nf >2 case, but with more restrictive assumptions. We find agreement between our analytic results and direct numerical calculations of the total occupation number of the produced particles, with departures that can be explained in terms of violation of our assumptions. We elucidate the precise connection between the maximum entropy ansatz (MEA) used in Amin & Baumann (2015) and the underlying statistical distribution of the self and cross couplings. We provide and justify a simple to use (MEA-inspired) expression for the particle production rate, which agrees with our more detailed treatment when the parameters characterizing the effective mass and cross-couplings between fields are all comparable to each other. However, deviations are seen when some parameters differ significantly from others. We show that such deviations become negligible for a broad range of parameters when Nf >> 1.
ISSN:1475-7516
1475-7516
DOI:10.1088/1475-7516/2017/09/015