Decoherence control for high-temperature reservoirs
作者:Wei Cui, Zairong Xi, Yu Pan
摘要
We investigate the decoherence control coupled to a rather general environment, i.e., without using the Markov approximation. Markovian errors generally require high-energy excitations (of the reservoir) and tend to destroy the scalability of the adiabatic quantum computation. Especially, we find that deriving optimal control using the Pontryagin maximum principle, the decoherence can be suppressed even in high-temperature reservoirs. The influences of Ohmic reservoir with Lorentz-Drude regularization are numerically studied in a two-level system under ω c ≪ ω 0 condition, here ω 0 is the characteristic frequency of the quantum system of interest, and ω c the cut-off frequency of Ohmic reservoir. It implies that designing some engineered reservoirs with the controlled coupling and state of the environment can slow down the decoherence rate and delay the decoherence time. Moreover, we compared the non-Markovian optimal decoherence control with the Markovian one and find that with non-Markovian the engineered artificial reservoirs are better than the Markovian approximate in controlling the decoherence of open, dissipative quantum systems.
论文关键词:decoherence control, optimal control, non-Markovian environment, engineered artificial reservoirs
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论文官网地址:https://doi.org/10.1007/s11704-008-0015-x