Coherence-mediated squeezing of a cavity field coupled to a coherently driven single quantum dot

Coherence has been an important key for numerous applications of quantum physics ranging from quantum metrology to quantum information. We report here a theoretical paper demonstrating how maximally created coherence results in the squeezing of a cavity field coupled to a coherently driven single quantum dot. We employ a polaron master equation theory for accurately incorporating the impact of exciton-phonon coupling on squeezing.

Automated summary

This theoretical paper demonstrates how maximizing coherence results in the squeezing of a cavity field coupled to a coherently driven single quantum dot. It employs a polaron master equation theory to accurately incorporate the impact of exciton-phonon coupling on squeezing.