Add to ORKGWe present an experimental demonstration of closed-loop quantum parameter estimation in which real-time feedback is used to achieve robustness to modeling uncertainty. By performing broadband estimation of a magnetic field acting on hyperfine spins in a cold atom ensemble, we show that accuracy is not compromised by fluctuations in total atom number even though the measured signal in our canonical configuration depends only on the product of the field and atom number. This methodology could be essential for efforts to utilize conditional squeezing in spin-resonance measurements
We investigate theoretically and experimentally a nondestructive interferometric measurement of the ...
Continuous measurement of collective atomic spin by an off-resonant optical probe can produce condit...
Empirical thesis.Bibliography: pages 79-87.1. Introduction -- 2. Loss-resistant unambiguous phase me...
We describe the formalism for optimally estimating and controlling both the state of a spin ensemble...
We argue that it is possible in principle to reduce the uncertainty of an atomic magnetometer by dou...
The shot-noise detection limit in current high-precision magnetometry [I. Kominis, T. Kornack, J. Al...
We demonstrate sub-shotnoise sensitivity to an external magnetic field with a broadband atomic magne...
We demonstrate that quantum nondemolition measurement, combined with a suitable parameter estimation...
Squeezing of collective atomic spins has been shown to improve the sensitivity of atomic clocks and ...
We present a measurement scheme capable of achieving the quantum limit of parameter estimation using...
Conditional spin squeezing can be achieved by continuous quantum-nondemolition measurement of an ato...
This chapter describes recent experiments involving continuous measurement and quantum feedback cont...
This thesis explores the topics of parameter estimation and model reduction in the context of quant...
Noise properties of an idealized atomic magnetometer that utilizes spin squeezing induced by a conti...
Cold atomic spins are a great platform for developing and testing control and measurement techniques...
We investigate theoretically and experimentally a nondestructive interferometric measurement of the ...
Continuous measurement of collective atomic spin by an off-resonant optical probe can produce condit...
Empirical thesis.Bibliography: pages 79-87.1. Introduction -- 2. Loss-resistant unambiguous phase me...
We describe the formalism for optimally estimating and controlling both the state of a spin ensemble...
We argue that it is possible in principle to reduce the uncertainty of an atomic magnetometer by dou...
The shot-noise detection limit in current high-precision magnetometry [I. Kominis, T. Kornack, J. Al...
We demonstrate sub-shotnoise sensitivity to an external magnetic field with a broadband atomic magne...
We demonstrate that quantum nondemolition measurement, combined with a suitable parameter estimation...
Squeezing of collective atomic spins has been shown to improve the sensitivity of atomic clocks and ...
We present a measurement scheme capable of achieving the quantum limit of parameter estimation using...
Conditional spin squeezing can be achieved by continuous quantum-nondemolition measurement of an ato...
This chapter describes recent experiments involving continuous measurement and quantum feedback cont...
This thesis explores the topics of parameter estimation and model reduction in the context of quant...
Noise properties of an idealized atomic magnetometer that utilizes spin squeezing induced by a conti...
Cold atomic spins are a great platform for developing and testing control and measurement techniques...
We investigate theoretically and experimentally a nondestructive interferometric measurement of the ...
Continuous measurement of collective atomic spin by an off-resonant optical probe can produce condit...
Empirical thesis.Bibliography: pages 79-87.1. Introduction -- 2. Loss-resistant unambiguous phase me...