Author: Fu Ying Turinici Gabriel
Publisher: Edp Sciences
E-ISSN: 1262-3377|23|3|1129-1143
ISSN: 1292-8119
Source: ESAIM: Control, Optimisation and Calculus of Variations, Vol.23, Iss.3, 2017-05, pp. : 1129-1143
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Abstract
The problem of recovering the Hamiltonian and dipole moment is considered in a bilinear quantum control framework. The process uses as inputs some measurable quantities (observables) for each admissible control. If the implementation of the control is noisy the data available is only in the form of probability laws of the measured observable. Nevertheless it is proved that the inversion process still has unique solutions (up to phase factors). Both additive and multiplicative noises are considered. Numerical illustrations support the theoretical results.
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