English

Indirect Methods to Control Population Distribution in a Large Spin System

Quantum Physics 2017-04-05 v2 Materials Science Statistical Mechanics

Abstract

We demonstrate how a large spin system (S=7/2S=7/2) with the ground and the first excited state separated by a seven photon transition exhibit non equilibrium thermodynamic properties and how the population distribution may be manipulated using coupling between energy levels. The first method involves non-adiabatic passage through an avoided level crossing controlled with an external DC magnetic field and the resulting Landau Zener transition. The second method is based on external cavity pumping to a higher energy state hybridised with another state that is two single photon transitions away from the ground state. The results are confirmed experimentally with Gd3+^{3+} impurity ion ensemble in a YVO4_{4} crystal cooled to 20 mK, which also acts as a microwave photonic whispering gallery mode resonator. Extremely long life times are observed due to large number of photons required for the transition between the ground and the first excited states.

Keywords

Cite

@article{arxiv.1611.00874,
  title  = {Indirect Methods to Control Population Distribution in a Large Spin System},
  author = {Lingfei Zhao and Maxim Goryachev and Jeremy Bourhill and Michael E. Tobar},
  journal= {arXiv preprint arXiv:1611.00874},
  year   = {2017}
}
R2 v1 2026-06-22T16:40:30.257Z