Reply to "Comment on `Noise, not squeezing, boosts synchronization in the deep quantum regime' "

• URL: http://arxiv.org/abs/2004.08827v1
• Date: Sun, 19 Apr 2020 12:02:58 GMT
• Title: Reply to "Comment on `Noise, not squeezing, boosts synchronization in the deep quantum regime' "
• Authors: Wai Keong Mok, Leong Chuan Kwek, Hermanni Heimonen
• Abstract summary: We clarify the main points of our manuscript and respond to the critique in the Comment arXiv:2002.115.14. In particular, we emphasize that our conclusion "squeezing loses effectiveness in the deep quantum regime" does not contradict the previous work. We address the concern brought up on the validity of the master equation in the deep quantum regime, and show that our noise-enhanced synchronization differs from previous literature.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: In this reply we clarify the main points of our manuscript and respond to the critique in the Comment arXiv:2002.11514. In particular, we emphasize that our conclusion "squeezing loses effectiveness in the deep quantum regime" does not contradict the previous work arXiv:1801.10383, but instead adds to it, and raises fundamental questions on classifying parameter regimes for quantum synchronization. Moreover, we address the concern brought up on the validity of the master equation in the deep quantum regime, and show that our noise-enhanced synchronization differs from previous literature. Through numerical examples, we also demonstrate that the choice of ansatz, while appearing inconsistent, does not lead to erroneous conclusions. Lastly, we expound on the physics of noise-boosted synchronization, and show that it is indeed a genuine feature unique to the deep quantum regime. However, we note that single photon dissipation is a more accurate term, and will move to using that.

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