Temperature cooling in quantum dissipation channel and the correspondimg thermal vacuum state

TL;DR

This paper investigates how to control and cool the temperature of optical chaotic light in a quantum dissipation channel by using a thermal vacuum state, revealing entanglement effects and deriving a temperature cooling formula.

Contribution

It introduces a thermal vacuum state approach to analyze temperature control in quantum dissipation channels, providing a new formula for temperature cooling based on the damping parameter.

Findings

Derived a temperature cooling formula dependent on damping parameter k

Showed entangling effects between system and reservoir via thermal vacuum state

Demonstrated temperature control by adjusting the damping parameter

Abstract

We examine temperature cooling of optical chaotic light in a quantum dissipation channel with the damping parameter k.The way we do it is by introducing its thermal vacuum state which can expose entangling effect between the system and the reservoir. The temperature cooling formula is derived, which depends on the parameter k, by adjusting k one can control temperature.