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Dirac materials for sub-MeV dark matter detection: New targets and improved formalism

R. Matthias Geilhufe, Felix Kahlhoefer, Martin Wolfgang Winkler

2020Physical review. D/Physical review. D.96 citationsDOIOpen Access PDF

Abstract

Because of their tiny band gaps Dirac materials promise to improve the sensitivity for dark matter particles in the sub-MeV mass range by many orders of magnitude. We study several candidate materials and calculate the expected rates for dark matter scattering via light and heavy dark photons as well as for dark photon absorption. A particular emphasis is placed on how to distinguish a dark matter signal from background by searching for the characteristic daily modulation of the signal, which arises from the directional sensitivity of anisotropic materials in combination with the rotation of Earth. We revisit and improve previous calculations and propose two new candidate Dirac materials: bis(naphthoquinone)-tetrathiafulvalene (BNQ-TTF) and ${\mathrm{Yb}}_{3}\mathrm{PbO}$. We perform detailed calculations of the band structures of these materials and of ${\mathrm{ZrTe}}_{5}$ based on density functional theory and determine the band gap, the Fermi velocities, and the dielectric tensor. We show that in both ${\mathrm{ZrTe}}_{5}$ and BNQ-TTF the amplitude of the daily modulation can be larger than 10% of the total rate, allowing us to probe the preferred regions of parameter space even in the presence of sizable backgrounds. BNQ-TTF is found to be particularly sensitive to small dark matter masses (below 100 keV for scattering and below 50 meV for absorption), while ${\mathrm{Yb}}_{3}\mathrm{PbO}$ performs best for heavier particles.

Topics & Concepts

PhysicsDark matterScatteringCondensed matter physicsAnisotropyEffective mass (spring–mass system)Particle physicsQuantum mechanicsTopological Materials and PhenomenaDark Matter and Cosmic PhenomenaAtomic and Subatomic Physics Research
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