Unsharp measurements allow the estimation and tracking of quantum wave functions in real time with minimal disruption of the dynamics. Here we demonstrate that high-fidelity state monitoring, and hence quantum control, is possible, even in the presence of classical dephasing and amplitude noise, by simulating such measurements on a two-level system undergoing Rabi oscillations. Finite estimation fidelity is found to persist indefinitely after the decoherence times set by the noise fields in the absence of measurement.
Reference:
Konrad, T and Uys, H. 2012. Maintaining quantum coherence in the presence of noise through state monitoring. Physical Review A, vol. 85, pp 012102(1) - 012102(4)
Konrad, T., & Uys, H. (2012). Maintaining quantum coherence in the presence of noise through state monitoring. http://hdl.handle.net/10204/5928
Konrad, T, and H Uys "Maintaining quantum coherence in the presence of noise through state monitoring." (2012) http://hdl.handle.net/10204/5928
Konrad T, Uys H. Maintaining quantum coherence in the presence of noise through state monitoring. 2012; http://hdl.handle.net/10204/5928.
