Frederik Werner Isaksen, Ulrik Lund Andersen
Published 2022-07-15Version 1
A mechanical system can be optimally controlled through continuous measurements of its position followed by feedback. We revisit the complete formalism for predicting the performance of such as system without invoking the standard rotating wave approximations and the adiabatic approximation. Using this formalism we deduce both the conditional and unconditional state of a mechanical oscillator using the optimal control and feedback that leads to mechanical cooling and mechanical squeezing. We find large discrepancies between the exact solutions and the approximate solutions stressing the importance of using the complete model.
Comments: 19 pages (including supplementary information), 8 figures
WKB and "Cubic-WKB" methods as an adiabatic approximation
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Optimal control of circuit quantum electrodynamics in one and two dimensions
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