Hybrid approximation approach to generation of atomic squeezing with quantum nondemolition measurements

• URL: http://arxiv.org/abs/2209.07915v2
• Date: Sun, 4 Jun 2023 14:17:00 GMT
• Title: Hybrid approximation approach to generation of atomic squeezing with quantum nondemolition measurements
• Authors: Ebubechukwu O. Ilo-Okeke, Manikandan Kondappan, Ping Chen, Yuping Mao, Valentin Ivannikov and Tim Byrnes
• Abstract summary: We analyze a scheme that uses quantum nondemolition measurements to induce squeezing of a spinor Bose-Einstein condensate in a double well trap. We derive simple expressions for the variances of atomic spin variables conditioned on the measurement outcome.
• Score: 4.607695869897002
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: We analyze a scheme that uses quantum nondemolition measurements to induce squeezing of a spinor Bose-Einstein condensate in a double well trap. In a previous paper [Ilo-Okeke et al. Phys. Rev. A \textbf{104}, 053324 (2021)], we introduced a model to solve exactly the wavefunction for all atom-light interaction times. Here, we perform approximations for the short interaction time regime, which is relevant for producing squeezing. Our approach uses a Holstein-Primakoff approximation for the atoms while we treat the light variables exactly. It allows us to show that the measurement induces correlations within the condensate, which manifest in the state of the condensate as a superposition of even parity states. In the long interaction time regime, our methods allow us to identify the mechanism for loss of correlation. We derive simple expressions for the variances of atomic spin variables conditioned on the measurement outcome. We find that the results agree with the exact solution in the short interaction time regime. Additionally, we show that the expressions are the sum of the variances of the atoms and the measurement. Beyond the short interaction time regime, our scheme agrees qualitatively with the exact solution for the spin variable that couples to light.

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