Mq. Phan et H. Rabitz, LEARNING CONTROL OF QUANTUM-MECHANICAL SYSTEMS BY LABORATORY IDENTIFICATION OF EFFECTIVE INPUT-OUTPUT MAPS, Chemical physics, 217(2-3), 1997, pp. 389-400
This paper addresses a new algorithm for laboratory learning control o
f quantum mechanical systems, The learning control is achieved through
the laboratory identification of a successive number of effective inp
ut-output maps for the quantum mechanical system. The input to these m
aps consists of a linearly independent set of control fields, and the
output consists of the resultant observations in the laboratory. In th
is paper, the observations are taken as the temporal evolution of the
target expectation value. From this information, an effective input-ou
tput map is produced, and the best control to meet a desired objective
can then be identified within the domain of the map. The process may
be repeated as desired, if higher quality control is necessary. The ba
sic logic behind this laboratory learning based approach is presented,
along with a simulated illustration of its behavior for a simple few-
state control problem.