Almost-exact state transfer by leakage-elimination-operator control in a non-Markovian environment
Zhao-Ming Wang, Feng-Hua Ren, Da-Wei Luo, Z. Yan, Lian-Ao Wu
Abstract
We investigate the feasibility of using an effective pulse control method to realize an almost exact state transmission through a uniform chain where the communication channel is immersed in a quantum environment. This pulse control is treated in a nonperturbative fashion, allowing for a more precise view. Using the non-Markovian quantum state diffusion equation, we calculate the dynamics of the transmission fidelity. The results show that the memory effects of the environment can support an effective transmission control that can be boosted under a non-Markovian environment. Our scheme provides another way to realize almost exact state transmission in a spin chain system.
Topics & Concepts
Transmission (telecommunications)Markov processMarkov chainOperator (biology)FidelityLeakage (economics)Computer scienceStatistical physicsChannel (broadcasting)Master equationPhysicsState (computer science)Pulse (music)QuantumQuantum mechanicsMathematicsAlgorithmTelecommunicationsVoltageEconomicsChemistryTranscription factorGeneStatisticsMacroeconomicsRepressorMachine learningBiochemistryQuantum Information and CryptographySpectroscopy and Quantum Chemical StudiesQuantum optics and atomic interactions