Title of article
Quantum Squeezed Light Propagation in an Optical Parity-Time (PT)-Symmetric Structure
Author/Authors
Pilehvar, Elnaz Dept of Electrical and Computer Engineering - Nano Plasmo-Photonic Research Group - Tarbiat Modares University , Amooghorban, Ehsan Dept of Electrical and Computer Engineering - Nano Plasmo-Photonic Research Group - Tarbiat Modares University , Moravvej-Farshi, Mohammad Kazem Dept of Electrical and Computer Engineering - Nano Plasmo-Photonic Research Group - Tarbiat Modares University
Pages
8
From page
181
To page
188
Abstract
We investigate the medium effect of a parity-time (PT)-symmetric bilayer on the quantum optical properties of an incident squeezed light at zero temperature (T=0 K). To do so, we use the canonical quantization approach and describe the amplification and dissipation properties of the constituent layers of the bilayer structure by Lorentz model to analyze the quadrature squeezing of the outgoing state from the bilayer structure. Our results show that despite the apparent compensation of the losses within the bilayer in the symmetry phase, the outgoing light is no longer squeezed. The results also show that the quantum optical effective medium theory correctly predicts the quantum features of the light outgoing from the PT-symmetric bilayer structure.
Keywords
Parity-time (PT)-symmetry , Quadrature squeezing , Electromagnetic field quantization , Quantum optical effective-medium theory
Serial Year
2019
Record number
2496094
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