Wednesday, June 27, 2012

1206.6045 (Michel Bauer et al.)

Repeated quantum non-demolition measurements: convergence and
continuous-time limit
   [PDF]

Michel Bauer, Tristan Benoist, Denis Bernard
We analyze general enough models of repeated indirect measurements in which a quantum system interacts repeatedly with randomly chosen probes on which Von Neumann direct measurements are performed. We prove, under suitable hypotheses, that the system state probability distribution converges after a large number of repeated indirect measurements, in a way compatible with quantum wave function collapse. Similarly a modified version of the system density matrix converges. We show that the convergence is exponential with a rate given by some relevant mean relative entropies. We also prove that, under appropriate rescaling of the system and probe interactions, the state probability distribution and the system density matrix are solutions of stochastic differential equations modeling continuous-time quantum measurements. We analyze the large time convergence of these continuous-time processes and prove convergence.
View original: http://arxiv.org/abs/1206.6045

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