De Haas - van Alphen Effect under Rotation

Shu-Yun Yang; Ren-Da Dong; Defu Hou; and Hai-Cang Ren

arXiv:2301.02857·hep-ph·May 3, 2023

De Haas - van Alphen Effect under Rotation

Shu-Yun Yang, Ren-Da Dong, Defu Hou, and Hai-Cang Ren

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TL;DR

This paper investigates how rotation influences the de Haas-van Alphen effect, revealing a reduction in oscillation amplitude due to state re-weighting, with implications for both high energy and condensed matter physics.

Contribution

It introduces the effect of rotation on the de Haas-van Alphen oscillation, a novel aspect not previously studied in detail.

Findings

01

Rotation reduces the amplitude of de Haas-van Alphen oscillations.

02

Rotation causes re-weighting of states within Landau levels.

03

Implications extend to high energy and condensed matter physics.

Abstract

We explored the interplay between magnetic field and rotation in the de Hass - van Alphen oscillation. The effect is found to be reduced because of the re-weighting of different states within the same Landau level by rotation energy. The implications of our results on high energy physics and condensed matter physics are speculated.

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Taxonomy

TopicsCold Atom Physics and Bose-Einstein Condensates · Advanced Chemical Physics Studies · Mechanical and Optical Resonators