Litcius/Paper detail

Twist-induced Casimir Attractive-Repulsive Transition Based on Lithium Iodate

Yang Hu, Xiaohu Wu, Haotuo Liu, Wenxuan Ge, Jihong Zhang, Xiuquan Huang

2024ACS Photonics13 citationsDOI

Abstract

Twisted systems exhibiting unique electronic and mechanical properties are valuable in quantum physics and material science. Inspired by the concept of twistronics, we investigate the Casimir interaction in the twisted system. We delve into the behavior of the Casimir force within a system comprising layers of lithium iodate (LiIO 3 ), separated by a composite medium of nanoparticles dispersed in a liquid. A notable observation is that the Casimir force undergoes a transition from attractive to repulsive, arising in the relative rotation of the LiIO 3 at the Casimir magic twist angle. The transitions are induced by quasispindle dispersion and the competition between repulsion and attraction in wavevector space. This work combines macroscopic geometric configurations with microscopic quantum interactions, marks a step in the tunable Casimir attractive–repulsive transition, and is helpful for switchable nanoscale devices with ultralow static friction.

Topics & Concepts

Casimir effectPhysicsQuantumCondensed matter physicsCasimir pressureMaterials scienceClassical mechanicsQuantum mechanicsQuantum Electrodynamics and Casimir EffectMechanical and Optical ResonatorsExperimental and Theoretical Physics Studies
Twist-induced Casimir Attractive-Repulsive Transition Based on Lithium Iodate | Litcius