We introduce Hermite polynomial excitation squeezed vacuum (SV) and then investigate analytically the nonclassical properties according to Mandel's Q parameter, second correlation function, squeezing effect and the negativity of the Wigner WF). It is found that all these nonclassicalities can be enhanced by Hermite polynomial operation and adjustable parameters (mu and nu). In particular, the optimal negative volume (NV) of WF can be achieved by modulating mu and nu for higher excitation. The decoherence effect of phase-sensitive environment on this state is examined. It is shown that the NV with higher order diminishes more quickly than that with a lower one, which indicates that single-photon subtraction SV presents more robustness. The parameter of reservoirs can be effectively used to improve the nonclassicality.

• 出版日期2015-4
• 单位北京计算科学研究中心; 江西师范大学