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Chiral Anomaly-Enhanced Casimir Interaction between Weyl Semimetals

Jia-Nan Rong, Liang Chen, Kai Chang

2021Chinese Physics Letters18 citationsDOI

Abstract

We theoretically study the Casimir interaction between Weyl semimetals. When the distance a between semi-infinite Weyl semimetals is in the micrometer regime, the Casimir attraction can be enhanced by the chiral anomaly. The Casimir attraction depends sensitively on the relative orientations between the separations ( b 1 , b 2 ) of Weyl nodes in the Brillouin zone and show anisotropic behavior for the relative orientation of these separations ( b 1 , b 2 ) when they orient parallel to the interface. This anisotropy is quite larger than that in conventional birefringent materials. The Casimir force can be repulsive in the micrometer regime if the Weyl semimetal slabs are sufficiently thin and the direction of Weyl nodes separations ( b 1 , b 2 ) is perpendicular to the interface. The Casimir attraction between Weyl semimetal slabs decays slower than 1/ a 4 when the Weyl nodes separations b 1 and b 2 are both parallel to the interface.

Topics & Concepts

Weyl semimetalCasimir effectPhysicsAnisotropySemimetalCondensed matter physicsAnomaly (physics)Quantum mechanicsBand gapQuantum Electrodynamics and Casimir EffectNoncommutative and Quantum Gravity TheoriesTopological Materials and Phenomena
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