English

Modular variable laser cooling for efficient entropy extraction

Quantum Physics 2025-05-28 v1
Authors: Brennan de Neeve , Thanh-Long Nguyen , Alexander Ferk , Tanja Behrle , Francesco Lancellotti , Matteo Simoni , Stephan Welte , Jonathan Home
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Abstract

We propose and experimentally demonstrate a method for laser cooling an oscillator based on sequences of spin-state-dependent displacements followed by spin repumping. For a thermal state with mean occupation nˉ1\bar{n}\gg 1 the method attains a reduction to 0.632 of the initial thermal oscillator occupation for two repumps of the two-level spin state. This is within a factor of 2.53 of the optimum that might be expected due to the reduction of the oscillator entropy by 2ln(2)2 \ln(2). We show that the method, which is based on encoding the value of the modular-variable of the oscillator into the spin, has a simple semi-classical description in terms of a Bayesian update. We demonstrate the method experimentally using the internal and motional states of a single trapped ion.

Keywords

laser cooling and trapping

Cite

@article{arxiv.2408.16128,
  title  = {Modular variable laser cooling for efficient entropy extraction},
  author = {Brennan de Neeve and Thanh-Long Nguyen and Alexander Ferk and Tanja Behrle and Francesco Lancellotti and Matteo Simoni and Stephan Welte and Jonathan Home},
  journal= {arXiv preprint arXiv:2408.16128},
  year   = {2025}
}

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