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Abstract |
The thermal relic abundance of the dark matter is now determined observationally to a per cent level
accuracy. It is also an increasingly useful tool to exclude, constrain or motivate models beyond the Standard
Model of particle physics. It comes then with no surprise that in the recent years a considerable effort has
been made to revise and improve some of the aspects of thermal relic density calculations. In this talk I will
discuss some of the recent advances in such calculations, with special emphasis on the validity of an
assumption of local thermal equilibrium. I will describe a refined formalism relying on the inclusion of higher
moments of the Boltzmann equation and compare it to an approach based on solving the evolution of the
phase space distribution function fully numerically. |
