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Accelerated and Noise‐Resistant Protocol of Dissipation‐Based Knill–Laflamme–Milburn State Generation with Lyapunov Control
Author(s) -
Wang Yu,
Hu ChangSheng,
Shi ZhiCheng,
Huang BiHua,
Song Jie,
Xia Yan
Publication year - 2019
Publication title -
annalen der physik
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.009
H-Index - 68
eISSN - 1521-3889
pISSN - 0003-3804
DOI - 10.1002/andp.201900006
Subject(s) - dissipation , lyapunov function , physics , rydberg formula , quantum entanglement , noise (video) , quantum zeno effect , quantum , control theory (sociology) , statistical physics , quantum mechanics , quantum decoherence , computer science , nonlinear system , control (management) , ion , artificial intelligence , image (mathematics) , ionization
A protocol to generate steady Knill–Laflamme–Milburn (KLM) states of two Rydberg atoms with dissipation and Lyapunov control is proposed. Herein, combining with the quantum Zeno dynamics and the Rydberg antiblockade, a unique and steady solution of the master equation of the system is obtained, which satisfies the definition of KLM states. Furthermore, to polish the convergence rate, well‐designed additional coherent control (ACC) fields with Lyapunov control are added into the traditional dissipation process. Numerical simulation reveals that the steady target state generation is prominently accelerated and the protocol is robust against the stochastic noise errors caused by laser fields. It is hoped that the work may provide an alternative protocol to polish the generation of entanglement.