Abstract
In this study, we analyze the direct-detection constraints of light dark matter in the next-to minimal supersymmetric standard model (NMSSM) with non-universal Higgs masses (NUHM); we specially focus on the correlation between higgsino asymmetry and spin-dependent (SD) cross section. We draw the following conclusions. (i) The SD cross section is proportional to the square of higgsino asymmetry in dark matter in the NMSSM-NUHM, and hence, it is small for highly singlino-dominated dark matter. (ii) The higgsino-mass parameter is smaller than approximately in the NMSSM-NUHM due to the current muon g-2 constraint, but our scenario with light dark matter can still be alive under current constraints including the direct detection of dark matter in the spin-dependent channel. (iii) With a sizeable higgsino component in the light dark matter, the higgsino asymmetry and SD cross section can also be sizeable, but dark matter relic density is always small; thus, it can escape the direct detections. (iv) Light dark matter in the - and Z-funnel annihilation channels with sufficient relic density can be covered by future LUX-ZEPLIN (LZ) 7-ton in SD detections. (v) The spin-independent (SI) cross section is dominated by - and -exchanging channels, which can even cancel each other in some samples, leaving an SI cross section smaller by a few orders of magnitude than that of one individual channel.
Highlights
Dark matter (DM) is always a fascinating topic, as there are so many evidence in astrophysical observations [1–3]
In our previous studies of the Next-to Minimal Supersymmetric Standard Model (NMSSM)-non-universal Higgs masses (NUHM) [36], we developed a novel efficient method to scan the parameter space of NMSSM-NUHM, which consists of the Heuristically Search (HS) and the Generative Adversarial Network (GAN)
We study in detail the direct-detection constraints to light dark matter χ01, whose mass is lighter than half of the SM-like Higgs mh2
Summary
Dark matter (DM) is always a fascinating topic, as there are so many evidence in astrophysical observations [1–3]. To study the correlation between the nature of WIMP DM and its scattering with nucleon, and check the status of possible WIMP dark matter under current direct detection constraints is an urgent task. We study in detail the direct detection of light dark matter in the NMSSM-NUHM. The correlation between the spin-independent and spin-dependent direct detection of dark matter has been studied in Ref. The spin-dependent direct detection of dark matter in MSSM has been studied in Refs. We study especially the correlation between the spin-dependent cross section and the so-called ‘higgsino asymmetry’ in the NMSSM-NUHM.
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