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Paper detail

Enhanced optomechanical entanglement and cooling via dissipation engineering

We propose an optomechanical dissipation engineering scheme by introducing an ancillary mechanical mode with a large decay rate to control the density of states of the optical mode. The effective linewidth of the optical mode can be reduced or broadened, manifesting the dissipation engineering. To prove the ability of our scheme in improving the performances of the optomechanical system, we studied optomechanical entanglement and phonon cooling. It is demonstrated that the optomechanical entanglement overwhelmed by thermal phonon excitations could be restored via dissipation engineering. For the phonon cooling, an order of magnitude improvement could be achieved. Our scheme can be generalized to other systems with multiple bosonic modes, which is experimentally feasible with advances in materials and nanofabrication, including optical Fabry-Perot cavities, superconducting circuits, and nanobeam photonic crystals.

preprint2019arXivOpen access
Yan-Lei ZhangChuan-Sheng YangZhen ShenChun-Hua DongGuang-Can GuoChang-Ling ZouXu-Bo Zou
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Yan-Lei ZhangChuan-Sheng YangZhen ShenChun-Hua DongGuang-Can GuoChang-Ling ZouXu-Bo Zou

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