Thermal noise and oscillations of photon distribution for squeezed and correlated light

TL;DR

This paper investigates how temperature affects photon distribution oscillations in squeezed and correlated light, revealing that increased temperature diminishes oscillations and exploring the roles of squeezing and correlation parameters.

Contribution

It analyzes the impact of temperature, squeezing, and correlation on photon distribution oscillations, linking deformation of Planck distribution to these effects.

Findings

Oscillations decrease with rising temperature.

Squeezing and correlation parameters influence oscillation behavior.

Deformation of Planck distribution relates to oscillation patterns.

Abstract

The oscillations of photon distribution function for squeezed and correlated light are shown to decrease when the temperature increases.The influence of the squeezing parameter and photon quadrature correlation coefficient on the photon distribution oscillations at nonzero temperatures is studied. The connection of deformation of Planck distribution formula with oscillations of distribution for squeezed and correlated light is discussed.