Thursday, June 14, 2012

1206.2688 (Ryan Hamerly et al.)

Coherent controllers for optical-feedback cooling of quantum oscillators    [PDF]

Ryan Hamerly, Hideo Mabuchi
We study the cooling performance of optical-feedback controllers for open optical and mechanical resonators in the Linear Quadratic Gaussian setting of stochastic control theory. We utilize analysis and numerical optimization of closed-loop models based on quantum stochastic differential equations to show that coherent control schemes, where we embed the resonator in an interferometer to achieve all-optical feedback, can outperform optimal measurement-based feedback control schemes in the quantum regime of low steady-state excitation number. These performance gains are attributed to the coherent controller's ability to simultaneously process both quadratures of an optical probe field without measurement or loss of fidelity, and may guide the design of coherent feedback schemes for more general problems of robust nonlinear and robust control.
View original: http://arxiv.org/abs/1206.2688

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