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Unitarity Bound on Dark Matter: S-matrix - Unitarity and its Consequencesby@cosmological

Unitarity Bound on Dark Matter: S-matrix - Unitarity and its Consequences

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In this paper, researchers establish an upper bound on thermal dark matter mass using scattering unitarity, considering nonstandard cosmologies.
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This paper is available on arxiv under CC 4.0 license.

Authors:

(1) Nicolas Bernal, New York University Abu Dhabi;

(2) Partha Konar, Physical Research Laboratory;

(3) Sudipta Show, Physical Research Laboratory.

2. S-matrix: Unitarity and its Consequences


For the sake of simplicity, here we will focus on the collisions of nonidentical spin-0 particles. However, the case of other spins can be generalized simply by using Refs. [13, 114]. We carry out the basis transformation from the momentum eigenstates to a general basis state by using rotational invariance.



Now, we derive the total cross section, the sum of the elastic and inelastic cross sections, in the channel n with the help of the optical theorem in Eq. (2.1) and the general expression of the matrix element in Eq. (2.2)



Then, one can easily obtain the inelastic cross section by subtracting the elastic in Eq. (2.3) from the total cross sections in Eq. (2.4)



Finally, we note that for a collision among identical particles, an additional multiplicative factor of 2 in the cross section is required to avoid double counting [114].