114 research outputs found
Modal dynamics for positive operator measures
The modal interpretation of quantum mechanics allows one to keep the standard
classical definition of realism intact. That is, variables have a definite
status for all time and a measurement only tells us which value it had.
However, at present modal dynamics are only applicable to situations that are
described in the orthodox theory by projective measures. In this paper we
extend modal dynamics to include positive operator measures (POMs). That is,
for example, rather than using a complete set of orthogonal projectors, we can
use an overcomplete set of nonorthogonal projectors. We derive the conditions
under which Bell's stochastic modal dynamics for projective measures reduce to
deterministic dynamics, showing (incidentally) that Brown and Hiley's
generalization of Bohmian mechanics [quant-ph/0005026, (2000)] cannot be thus
derived. We then show how {\em deterministic} dynamics for positive operators
can also be derived. As a simple case, we consider a Harmonic oscillator, and
the overcomplete set of coherent state projectors (i.e. the Husimi POM). We
show that the modal dynamics for this POM in the classical limit correspond to
the classical dynamics, even for the nonclassical number state . This
is in contrast to the Bohmian dynamics, which for energy eigenstates, the
dynamics are always non-classical.Comment: 14 page
Dynamical parameter estimation using realistic photodetection
We investigate the effect of imperfections in realistic detectors upon the
problem of quantum state and parameter estimation by continuous monitoring of
an open quantum system. Specifically, we have reexamined the system of a
two-level atom with an unknown Rabi frequency introduced by Gambetta and
Wiseman [Phys. Rev. A 64, 042105 (2001)]. We consider only direct
photodetection and use the realistic quantum trajectory theory reported by
Warszawski, Wiseman, and Mabuchi [Phys. Rev. A 65, 023802 (2002)]. The most
significant effect comes from a finite bandwidth, corresponding to an
uncertainty in the response time of the photodiode. Unless the bandwidth is
significantly greater than the Rabi frequency, the observer's ability to obtain
information about the unknown Rabi frequency, and about the state of the atom,
is severely compromised. This result has implications for quantum control in
the presence of unknown parameters for realistic detectors, and even for ideal
detectors, as it implies that most of the information in the measurement record
is contained in the precise timing of the detections.Comment: 8 pages, 6 figure
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