in this paper, influences of the atomic quantum coherent on the fieldsqueezing in the Buck-Sukumar model are studied.

Based on the quantum feature and the quantum coherent principle of the entangled photon pairs produced with the spontaneous parametric down-conversion,a measurement method of the distant clock synchronization is studied.

The properties of atomic coherent trapping are studied for the Raman-type system driven by a two-mode quantized field.

Coherent Hole-burning is a new theory that combines the optical hole-burning and atomic coherence.

The results indicate that atomic coherence of the four-level atomic system will be abated when the laser field linewidth is build up and laser field linewidth inhibits electromagnetically induced absorption.

We show the control of optical bistability and multistability via the atomic coherence induced by the microwave field in the presence of the antirotating wave coupling.

This progress motivates one to think of using nano-wires to realize a quantum interference network.

The absorption against probe laser field can be largely suppressed via quantum interference by coupling laser fields.