Abstract
(Mini) split supersymmetry explains the observed Higgs mass and evades stringent constraints, while keeping good features of TeV-scale supersymmetry other than the little hierarchy problem. Such scenarios naturally predict thermal wino dark matter whose mass is around $3 \, {\rm TeV}$. Its non-perturbatively enhanced annihilation is a promising target of indirect detection experiments. It is known that identifying the smallest halos is essential for reducing an uncertainty in interpreting indirect detection experiments. Despite its importance, the smallest halos of thermal wino dark matter have not been well understood and thus are investigated in this work. In particular, we remark on two aspects: 1) the neutral wino is in kinetic equilibrium with primordial plasma predominantly through inelastic processes involving the slightly heavier charged wino; and 2) the resultant density contrast shows larger powers at dark acoustic oscillation peaks than in cold dark matter, which is known as an overshooting phenomenon. By taking them into account, we provide a rigorous estimate of the boost factor. Our result facilitates accurately pinning down thermal wino dark matter through vigorous efforts in indirect detection experiments.
Highlights
The identity of dark matter and the origin of electroweak symmetry breaking are big mysteries of modern particle physics
We remark on two aspects: (1) the neutral wino is in kinetic equilibrium with primordial plasma predominantly through inelastic processes involving the slightly heavier charged wino; and (2) the resultant density contrast shows larger powers at dark acoustic oscillation peaks than in cold dark matter, which is known as an overshooting phenomenon
The neutral wino is in kinetic equilibrium with primordial plasma and is involved in an acoustic oscillation driven by photon pressure, called a dark acoustic oscillation
Summary
The identity of dark matter and the origin of electroweak symmetry breaking are big mysteries of modern particle physics. This article is devoted to providing better knowledge on the smallest halos of thermal wino dark matter It would play an essential role in reducing a theoretical uncertainty arising from enhancement of the annihilation rate through dark matter clumping [52,53,54,55]. It is known that a wino-nucleon scattering cross section is suppressed in the decoupling limit of the Higgsino, while loop contributions barely keep the cross section just above the neutrino background in direct detection experiments [78,79,80,81,82,83,84] This subtlety on wino dark matter kinetic decoupling has been studied for the temperature evolution in Ref. Our present work demonstrates that overshooting of the matter power spectrum can be seen broadly in minimal dark matter [89,90], we focus on wino dark matter
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