Models of reduced-noise, probabilistic linear amplifiers

Abstract

We construct an amplifier that interpolates between a nondeterministic, immaculate linear amplifier and a deterministic, ideal linear amplifier and beyond to nonideal linear amplifiers. The construction involves cascading an immaculate linear amplifier that has amplitude gain g1 with a (possibly) nonideal linear amplifier that has gain g2. With respect to normally ordered moments, the device has output noise μ2(G2-1) where G=g1 g2 is the overall amplitude gain and μ2 is a noise parameter. When μ21, our devices realize ideal (μ2=1) and nonideal (μ2>1) linear amplifiers. When 0μ2<1, these devices work effectively only over a restricted region of phase space and with some subunity success probability p. We investigate the performance of our μ2-amplifiers in terms of a gain-corrected probability-fidelity product and the ratio of input to output signal-to-noise ratios corrected for success probability.