An experiment is proposed for performing adaptive phase measurements on a continuous squeezed beam such that the variance is below the standard quantum limit. The theory takes into account many issues ignored in previous work
We consider the task of estimating the randomly fluctuating phase of a continuous-wave beam of light...
The precision of phase estimation with interferometers can be greatly enhanced using non-classical q...
Empirical thesis.Bibliography: pages 79-87.1. Introduction -- 2. Loss-resistant unambiguous phase me...
We have previously [Phys. Rev. A 65, 043803 (2002)] analyzed adaptive measurements for estimating th...
We analyze the problem of quantum-limited estimation of a stochastically varying phase of a continuo...
It is well known that the result of any phase measurement on an optical mode made using linear optic...
The phase of a single-mode field can be measured in a single-shot measurement by interfering the fie...
We demonstrate squeezing-enhanced adaptive optical phase estimation for a stochastically varying pha...
We present experimental results of the use of continuous adaptive feedback in quantum optical measur...
We consider the task of estimating the randomly fluctuating phase of a continuous-wave beam of light...
We use the quantum Fisher information to show the ultimate limit to the accuracy of measurement of a...
Tracking a randomly varying optical phase is a key task in metrology, with applications in optical c...
Tracking a randomly varying optical phase is a key task in metrology, with applications in optical c...
Adaptive techniques make practical many quantum measurements that would otherwise be beyond current ...
We experimentally performed adaptive phase estimation using time-symmetric quantum smoothing for a s...
We consider the task of estimating the randomly fluctuating phase of a continuous-wave beam of light...
The precision of phase estimation with interferometers can be greatly enhanced using non-classical q...
Empirical thesis.Bibliography: pages 79-87.1. Introduction -- 2. Loss-resistant unambiguous phase me...
We have previously [Phys. Rev. A 65, 043803 (2002)] analyzed adaptive measurements for estimating th...
We analyze the problem of quantum-limited estimation of a stochastically varying phase of a continuo...
It is well known that the result of any phase measurement on an optical mode made using linear optic...
The phase of a single-mode field can be measured in a single-shot measurement by interfering the fie...
We demonstrate squeezing-enhanced adaptive optical phase estimation for a stochastically varying pha...
We present experimental results of the use of continuous adaptive feedback in quantum optical measur...
We consider the task of estimating the randomly fluctuating phase of a continuous-wave beam of light...
We use the quantum Fisher information to show the ultimate limit to the accuracy of measurement of a...
Tracking a randomly varying optical phase is a key task in metrology, with applications in optical c...
Tracking a randomly varying optical phase is a key task in metrology, with applications in optical c...
Adaptive techniques make practical many quantum measurements that would otherwise be beyond current ...
We experimentally performed adaptive phase estimation using time-symmetric quantum smoothing for a s...
We consider the task of estimating the randomly fluctuating phase of a continuous-wave beam of light...
The precision of phase estimation with interferometers can be greatly enhanced using non-classical q...
Empirical thesis.Bibliography: pages 79-87.1. Introduction -- 2. Loss-resistant unambiguous phase me...
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