English

Van der Waals torque induced by external magnetic fields

Quantum Physics 2015-05-20 v1 Other Condensed Matter

Abstract

We present a method for inducing and controlling van der Waals torques between two parallel slabs using a constant magnetic field. The torque is calculated using the Barash theory of dispersive torques. In III-IV semiconductors such as InSbInSb, the effect of an external magnetic field is to induce an optical anisotropy, in an otherwise isotropic material, that will in turn induce a torque. The calculations of the torque are done in the Voigt configuration, with the magnetic field parallel to the surface of the slabs. As a case study we consider a slab made of calcite and a second slab made of InSbInSb. In the absence of magnetic field there is no torque. As the magnetic field increases, the optical anisotropy of InSbInSb increases and the torque becomes different from zero, increasing with the magnetic field. The resulting torque is of the same order of magnitude as that calculated using permanent anisotropic materials when the magnetic fields is close to 1 T.

Cite

@article{arxiv.1010.4553,
  title  = {Van der Waals torque induced by external magnetic fields},
  author = {R. Esquivel-Sirvent and G. H. Cocoletzi and M. Palomono-Ovando},
  journal= {arXiv preprint arXiv:1010.4553},
  year   = {2015}
}

Comments

to appear in Journal of Applied Physics

R2 v1 2026-06-21T16:32:25.356Z