Abstract
AbstractWe investigate a hybrid system consisting of an optomechanical resonator and an optical cavity containing a quantum well. The system is coupled to a squeezed vacuum reservoir. We analyze the effect of the injection of squeezed photons inside the cavity on the intensity spectrum. The system reaches a regime of hybrid resonance where mechanical, excitonic and cavity modes are intermixed. Despite that the optomechanical interaction is the source of the nonlinearity in the system, the optimum squeezing is obtained at the hybrid resonance frequencies. However, when the squeezed vacuum is applied, at these frequencies the minimum squeezing is realized as well as an increase of fluctuations is observed. We show that the squeezed vacuum transforms the coherent states into highly squeezed states of light, and offers a great flexibility to obtain maximal squeezing. Furthermore, a perfect squeezing is predicted.
Publisher
Springer Science and Business Media LLC
Reference68 articles.
1. Aspelmeyer, M., Kippenberg, T. J. & Marquardt, F. Cavity optomechanics. Rev. Mod. Phys. 86, 1391 (2014).
2. Meystre, P. A short walk through quantum optomechanics. Ann. Phys. (Berlin) 525, 215 (2013).
3. Xiong, H., Si, L.-G., Lü, X.-Y., Yang, X.-X. & Wu, Y. Review of cavity optomechanics in the weak-coupling regime: from linearization to intrinsic nonlinear interactions. Sci. China Phys. Mech. Astron. 58, 1 (2015).
4. Liao, Q., Xiao, X., Nie, W. & Zhou, N. Transparency and tunable slow-fast light in a hybrid cavity optomechanical system. Opt. Lett. 28, 5288 (2020).
5. Zhang, J.-S. & Chen, A.-X. Large mechanical squeezing beyond 3dB of hybrid atom-optomechanical systems in a highly unresolved sideband regime. Opt. Lett. 28, 12827 (2020).
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