Non-deterministic noiseless amplification via non-symplectic phase space transformations
Quantum Physics
2013-12-11 v2
Abstract
We analyse the action of an ideal noiseless linear amplifier operator, g^\hat{n}, using the Wigner function phase space representation. In this setting we are able to clarify the gain for which a physical output is produced when this operator is acted upon inputs other than coherent states. We derive compact closed form expressions for the action of local amplifiers, with potentially different gains, on arbitrary -mode Gaussian states and provide several examples of the utility of this formalism for determining important quantities including amplification and the strength and purity of the distilled entanglement, and for optimising the use of the amplification in quantum information protocols.
Keywords
Cite
@article{arxiv.1211.3794,
title = {Non-deterministic noiseless amplification via non-symplectic phase space transformations},
author = {Nathan Walk and Austin P. Lund and Timothy C. Ralph},
journal= {arXiv preprint arXiv:1211.3794},
year = {2013}
}
Comments
12 pages, 9 figures, missing reference added