利用电子-光机械混合系统克服标准量子极限，增强力传感能力

arXiv - PHYS - Quantum Physics Pub Date : 2024-09-16 DOI:arxiv-2409.10694

Alolika Roy, Amarendra K. Sarma

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引用次数: 0

摘要

我们通过分析混合光机械系统中的功率谱密度（PSD），研究如何降低力传感中的测量附加噪声。该装置由一个光机械腔、一个固定的半透明反射镜、一个超导量子比特和一个光参量放大器（OPA）组成。通过利用相干量子噪声消除（CQNC）的概念，我们得出了完全消除反作用力的必要条件，从而提高了力灵敏度。此外，随着 OPA 泵浦增益的逐渐增加，我们在较低的激光功率值下抑制了超过标准量子限（SQL）的灵敏度。背向作用噪声的消除以及射出噪声的降低提高了力探测能力，从而超越了与弱强迫探测相关的标准量子极限。

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Overcoming the Standard Quantum Limit with Electro-Optomechanical Hybrid System for Enhanced Force Sensing

We investigate the reduction of measurement-added noise in force sensing by analyzing its power spectral density (PSD) within a hybrid optomechanical system. The setup comprises of an optomechanical cavity equipped with a movable mirror which acts as the mechanical oscillator, a stationary semi-transparent mirror, a superconducting qubit, and an optical parametric amplifier (OPA). By utilizing the concept of coherent quantum noise cancellation (CQNC), we derive the conditions necessary for complete cancellation of back-action force, thereby enhancing force sensitivity. Furthermore, with the gradual increase in the OPA pump gains, we suppress the sensitivity beyond the standard quantum limit (SQL) at a lower value of laser power. The removal of back-action noise, along with the reduction of shot noise, improves force detection capabilities, thereby surpassing the standard quantum limit associated with weak force detection.

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arXiv - PHYS - Quantum Physics

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