Events Daily

Wednesday, October 9, 2024
      

HEP Journal Club
Event Type: ArXiv Discussion
Time: 12:30 PM - 1:45 PM
Location: 726 Broadway, 940, CCPP Seminar

Probing Dark Matter Microphysics Using Stellar Streams
Aditya Parikh, Stony Brook
Event Type: HEP Seminar
Time: 2:00 PM - 3:00 PM
Location: 726 Broadway, 940, CCPP Seminar
Abstract: If dark matter has strong self-interactions, future astrophysical and cosmological observations, together with a clearer understanding of baryonic feedback effects, might be used to extract the velocity dependence of the dark matter scattering rate. To interpret such data, we should understand what predictions for this quantity are made by various models of the underlying particle nature of dark matter. In this talk, we systematically compute this function for fermionic dark matter with light bosonic mediators of vector, scalar, axial vector, and pseudoscalar type. We do this by matching to the nonrelativistic effective theory of self-interacting dark matter and then computing the spin-averaged viscosity cross section nonperturbatively by solving the Schrodinger equation, thus accounting for any possible Sommerfeld enhancement of the low-velocity cross section. In the pseudoscalar case, this requires a coupled-channel analysis of different angular momentum modes. We find, contrary to some earlier analyses, that nonrelativistic effects only provide a significant enhancement for the cases of light scalar and vector mediators. Scattering from light pseudoscalar and axial vector mediators is well described by tree-level quantum field theory. We end by discussing the potential of using stellar streams as detectors of low-mass dark substructure, where self-interactions can have pronounced effects. In particular, we will focus on the cold dark matter case first in an effort to establish a baseline of the features created in stellar streams by low-mass dark substructure. This baseline will in turn set the stage for a more detailed study of the self-interacting dark matter parameter space.

Link to the Event Video