Radiative corrections to the direct detection of the Higgsino-(and Wino-)like neutralino dark matter: Spin-dependent interactions
Abstract
The lightest neutralino (10) is a promising dark matter (DM) candidate in the R-parity conserving minimal supersymmetric standard model (MSSM). In this work, we focus on dominantly Higgsino-like and Wino-like 10 DM, with small admixtures of gauginos and Higgsinos, respectively. In particular, we explore large one-loop corrections to the 10 10Z vertex, which can significantly affect the estimation of the spin-dependent 10-nucleon scattering cross-section in the regions where such DM candidates are viable. We have used the on-shell renormalization scheme to estimate the relevant counterterm contributions. In the parameter region where 10 is dominantly Higgsino-like, the radiative corrections (including the contributions from the respective counterterms) are substantial and can enhance the 1010Z vertex by up to 120\% for the benchmark scenarios we have considered. Further, for an almost pure Wino-like 10, the increment in the 1010Z vertex is up to 15\%. The corresponding cross-sections with the proton and the neutron can be changed by up to about 50\%. In addition, including the electroweak box diagrams, the cross-sections can be significantly enhanced, in particular, for the Wino-like 10.
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