Related papers: Majorization ladder in bosonic Gaussian channels

Majorization ladder in bosonic Gaussian channels

URL: http://arxiv.org/abs/2209.08384v2
Date: Tue, 17 Jan 2023 23:41:26 GMT
Title: Majorization ladder in bosonic Gaussian channels
Authors: Zacharie Van Herstraeten, Michael G. Jabbour, Nicolas J. Cerf
Abstract summary: We show that the channel output resulting from the $ntextth$ energy eigenstate (Fock state) majorizes the channel output resulting from the $(n!+!1)textth$ energy eigenstate (Fock state) This reflects a remarkable link between the energy at the input of the channel and a disorder relation at its output as captured by majorization theory.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We show the existence of a majorization ladder in bosonic Gaussian channels, that is, we prove that the channel output resulting from the $n\text{th}$ energy eigenstate (Fock state) majorizes the channel output resulting from the $(n\!+\!1)\text{th}$ energy eigenstate (Fock state). This reflects a remarkable link between the energy at the input of the channel and a disorder relation at its output as captured by majorization theory. This result was previously known in the special cases of a pure-loss channel and quantum-limited amplifier, and we achieve here its nontrivial generalization to any single-mode phase-covariant (or -contravariant) bosonic Gaussian channel. The key to our proof is the explicit construction of a column-stochastic matrix that relates the outputs of the channel for any two subsequent Fock states at its input. This is made possible by exploiting a recently found recurrence relation on multiphoton transition probabilities for Gaussian unitaries [M. G. Jabbour and N. J. Cerf, Phys. Rev. Research 3, 043065 (2021)]. Possible generalizations and implications of these results are then discussed.

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