Implementation of weak measurement amplification with the weak coherent light and optomechanical system

• URL: http://arxiv.org/abs/2104.03561v2
• Date: Sat, 18 Sep 2021 02:23:21 GMT
• Title: Implementation of weak measurement amplification with the weak coherent light and optomechanical system
• Authors: Gang Li and Wen Yang
• Abstract summary: We find that using weak coherent light instead of a single photon can amplify the mirror's position displacement of one photon. This opens up a new regime for the study of a single photon nonlinearity in optomechanical system.
• Score: 11.30291586021715
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Most studies for postselected weak measurement in optomechanical system focus on using a single photon as a measured system. However, we find that using weak coherent light instead of a single photon can also amplify the mirror's position displacement of one photon. In the WVA regime (Weak Value Amplification regime), the weak value of one photon can lie outside the eigenvalue spectrum, proportional to the difference of the mirror's position displacement between the successful and failed postselection and its successful postselection probability is dependent of the mean photon number of the coherent light and improved by adjusting it accordingly. Outside the WVA regime, the amplification limit can reach the level of the vacuum fluctuations, and when the mean photon number and the optomechanical coupling parameter are selected appropriately, its successful postselection probability becomes higher, which is beneficial to observe the maximum amplification value under the current experimental conditions. This result breaks the constraint that it is difficult to detect outside the WVA regime. This opens up a new regime for the study of a single photon nonlinearity in optomechanical system.

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