Higher-order squeezing for the codirectional Kerr nonlinear coupler

Abstract

In this Letter we study the evolution of the higher-order squeezing, namely, nth-order single-mode squeezing, sum- and difference-squeezing for the codirectional Kerr nonlinear coupler. We show that the amount of squeezing decreases when n, i.e. the squeezing order, increases. For specific values of the interaction parameters squeezing factors exhibit a series of revival-collapse phenomena, which become more pronounced when the value of n increases. Sum-squeezing can provide amounts of squeezing greater than those produced by the nth higher-order (n≥ 2) squeezing for the same values of interaction parameters and can map onto amplitude-squared squeezing. Further, we prove that the difference-squeezing is not relevant measure for obtaining information about squeezing from this device.