Related papers: Some Aspects of Remote State Restoring in State Transfer Governed by XXZ-Hamiltonian

Some Aspects of Remote State Restoring in State Transfer Governed by XXZ-Hamiltonian

URL: http://arxiv.org/abs/2407.16460v1
Date: Tue, 23 Jul 2024 13:18:47 GMT
Title: Some Aspects of Remote State Restoring in State Transfer Governed by XXZ-Hamiltonian
Authors: Georgii A. Bochkin, Sergei I. Doronin, Edward B. Fel'dman, Elena I. Kuznetsova, Ilia D. Lazarev, Alexander Pechen, Alexander I. Zenchuk,
Abstract summary: We consider a spin system governed by the XXZ-armorian excitation number. Restoring in spin chains with up to 20 nodes is studied. We demonstrate the exponential increase of the state-transfer time with the spin chain length.
Score: 70.4277761365444
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We consider the remote state restoring and perfect transfer of the zero-order coherence matrix (PTZ) in a spin system governed by the XXZ-Hamiltonian conserving the excitation number. The restoring tool is represented by several nonzero Larmor frequencies in the Hamiltonian. To simplify the analysis we use two approximating models including either step-wise or pulse-type time-dependence of the Larmor frequencies. Restoring in spin chains with up to 20 nodes is studied. Studying PTZ, we consider the zigzag and rectangular configurations and optimize the transfer of the 0-order coherence matrix using geometrical parameters of the communication line as well as the special unitary transformation of the extended receiver. Overall observation is that XXZ-chains require longer time for state transfer than XX-chains, which is confirmed by the analytical study of the evolution under the nearest-neighbor approximation. We demonstrate the exponential increase of the state-transfer time with the spin chain length.

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