Space-time dual quantum Zeno effect: Interferometric engineering of open quantum system dynamics
Jhen-Dong Lin, Ching-Yu Huang, Neill Lambert, Guang-Yin Chen, Franco Nori, Yueh-Nan Chen
Abstract
Superposition of trajectories, which modify quantum evolutions by superposing paths through interferometry, has been utilized to enhance various quantum communication tasks. However, little is known about its impact from the viewpoint of open quantum systems. Thus we examine this subject from the perspective of system-environment interactions. We show that the superposition of multiple trajectories can result in quantum state freezing, suggesting a space-time dual to the quantum Zeno effect. Moreover, nontrivial Dicke-like super(sub)radiance can be triggered without utilizing multiatom correlations.
Topics & Concepts
Quantum Zeno effectSuperposition principleOpen quantum systemQuantumPhysicsQuantum dynamicsQuantum mechanicsQuantum superpositionQuantum error correctionInterferometryQuantum processZeno's paradoxesClassical mechanicsMathematicsGeometryQuantum Information and CryptographyNeural Networks and Reservoir ComputingQuantum Mechanics and Applications