Coherent light squeezing states within a modified microring system

Coherent light squeezing states within a modified microring system

We have proposed the simple method of the squeezed light generation in the modified microring resonator, which is known as the microring conjugate mirror (MCM). When the monochromatic light is input into the MCM, the general form of the squeezed coherent states for a quantum harmonic oscillator can...

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Bibliographic Details
Main Authors: Ali, J. (Author), Pornsuwancharoen, N. (Author), Youplao, P. (Author), Aziz, M. S. (Author), Amiri, I. S. (Author), Chaiwong, K. (Author), Chiangga, S. (Author), Singh, G. (Author), Yupapin, P. (Author)
Format: Article
Language:English
Published: Elsevier B.V., 2018.
Subjects:
QC Physics
Online Access:Get fulltext
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Summary:We have proposed the simple method of the squeezed light generation in the modified microring resonator, which is known as the microring conjugate mirror (MCM). When the monochromatic light is input into the MCM, the general form of the squeezed coherent states for a quantum harmonic oscillator can be generated by controlling the additional two side rings, which are the phase modulators. By using the graphical method called the Optiwave program, the coherent squeezed states of coherent light within an MCM can be obtained and interpreted as the amplitude, phase, quadrature and photon number-squeezed states. This method has shown potentials for microring related device design, which can be used before practical applications.

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