Vacuum Torque Without Anisotropy: Switchable Casimir Torque Between Altermagnets

• URL: http://arxiv.org/abs/2601.14381v1
• Date: Tue, 20 Jan 2026 19:00:05 GMT
• Title: Vacuum Torque Without Anisotropy: Switchable Casimir Torque Between Altermagnets
• Authors: Zixuan Dai, Qing-Dong Jiang,
• Abstract summary: We show that an axially symmetric magnetic field can generate a Casimir torque by inducing an axially asymmetric Casimir energy.<n>Our results identify time-reversal symmetry breaking as a powerful route for engineering both the sign and strength of Casimir torque.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Casimir torque is conventionally associated with explicit breaking of rotational symmetry, arising from material dielectric anisotropy, geometric asymmetry, or externally applied fields that themselves break rotational invariance. Here we demonstrate a fundamentally different mechanism: an axially symmetric magnetic field can generate a Casimir torque by inducing an axially asymmetric Casimir energy - and can even reverse the torque's sign. Focusing on two-dimensional altermagnets, we show that a magnetic field applied perpendicular to the plane - while preserving in-plane rotational symmetry - activates an orientation-dependent vacuum interaction through the combined crystalline symmetry $\mathrm{C_n T}$ inherent to altermagnetic order. The resulting torque emerges continuously and scales quadratically with the magnetic field strength. We further analyze its temperature and distance dependence, revealing scaling behaviors that are qualitatively different from those found in uniaxial bulk materials. Our results identify time-reversal symmetry breaking as a powerful route for engineering both the sign and strength of Casimir torque and establish altermagnets as an exciting platform for exploring phenomena driven by vacuum quantum fluctuations.

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