Related papers: Analyzing performance of $f$-deformed displaced Fock state in continuous-variable quantum teleportation

Analyzing performance of $f$-deformed displaced Fock state in continuous-variable quantum teleportation

URL: http://arxiv.org/abs/2406.16538v1
Date: Mon, 24 Jun 2024 11:17:52 GMT
Title: Analyzing performance of $f$-deformed displaced Fock state in continuous-variable quantum teleportation
Authors: Deepak, Arpita Chatterjee,
Abstract summary: We investigate the success probability of the non-Gaussian resources for optimal performance of the ideal teleportation protocol. It is found that the nonlinear substitution leads to an enhancement in teleportation fidelity beyond the threshold limit. The entangled photon-subtracted displaced Fock state demonstrates maximum efficiency as a quantum channel for teleporting single-mode coherent and squeezed states.
Score: 4.967939188540654
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Performing non-Gaussian operations, namely photon addition, photon subtraction, photon-addition-then-subtraction, photon-subtraction-then-addition can successfully enhance the fidelity of the continuous-variable quantum teleportation. However, a shortcoming of these non-Gaussian resources is that they are probabilistic in nature. In this article, we investigate the success probability of the non-Gaussian resources for optimal performance of the ideal teleportation protocol. To this end, we first derive the analytical expression for the two-mode entangled channel having $f$-deformed displaced Fock state or photon-added displaced Fock state or photon-subtracted displaced Fock state at one port and vacuum at another port of a symmetric beam-splitter. The generalized displaced Fock states are obtained by replacing the conventional bosonic functions by the nonlinear $f$-deformed operators such as $A=af(a^\dag a)$ and $B=af(a^\dag a)^{-1}$. The Wigner characteristic functions describing these three aforementioned non-Gaussian states are determined and utilized to attain the teleportation fidelity for input coherent and squeezed vacuum states. It is found that the nonlinear substitution leads to an enhancement in teleportation fidelity beyond the threshold limit. Moreover, the entangled photon-subtracted displaced Fock state demonstrates maximum efficiency as a quantum channel for teleporting single-mode coherent and squeezed states. We provide the squeezing regime values corresponding to the optimal performance of the non-Gaussian states considered, which will be of significant interest to the experimental fraternity. Further, we show that the entangled photon-added displaced Fock states have larger amount of entanglement but the entangled photon-subtracted displaced Fock states have stronger Einstein-Podolsky-Rosen correlation.

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