Noise suppression in inverse weak value-based phase detection

Lyons, Kent; Howell, John C.; Jordan, Andrew N.

doi:10.1007/s40509-017-0145-7

Cited by 9 publications

(4 citation statements)

References 38 publications

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“…3. We plot the static deflection angleθ (7) for the torque in the one-armed torsion pendulum (15), (left) and the twoarmed torsion pendulum (16), (right) as shown on the colorbars, as a function of target distance r0 (x-axis) and target mass M (y-axis). The plot, given as a log-log-log density plot, shows three decades of distance, and six of mass.…”

Section: Noise Considerationsmentioning

confidence: 99%

“…Because weak values can be much larger than their respective expectation values when ⟨ψ f ψ i ⟩ → 0, they have been used to amplify small effects. Weak value amplification has been shown to be exceptionally valuable in suppressing technical noise in precision measurements [9][10][11][12][13][14][15]. While these techniques do not beat the shot noise limit (with some exceptions, see e.g.…”

Section: Introductionmentioning

confidence: 99%

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Gravitational sensing with weak value based optical sensors

Jordan

Lewalle

Tollaksen

et al. 2018

Quantum Stud.: Math. Found.

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Using weak values amplification angular resolution limits, we theoretically investigate the gravitational sensing of objects. By inserting a force-sensing pendulum into a weak values interferometer, the optical response can sense accelerations to a few 10's of zepto-g Hz −1 2 , with optical powers of 1 mW. We convert this precision into range and mass sensitivity, focusing in detail on simple and torsion pendula. Various noise sources present are discussed, as well as the necessary cooling that should be applied to reach the desired levels of precision.

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Section: Noise Considerationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Gravitational sensing with weak value based optical sensors

Jordan

Lewalle

Tollaksen

et al. 2018

Quantum Stud.: Math. Found.

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“…Weak value amplification (WVA) [1][2][3] can be used to amplify small parameters without amplifying certain types of technical noise, in order to obtain a higher signalto-noise ratio [4]. The technique has been used to obtain enhanced measurements of a variety of parameters, such as the angular deflection of a mirror [5,6], beam displacements [7], and temperature changes [8].…”

Section: Introductionmentioning

confidence: 99%

Precision frequency measurement on a chip using weak value amplification

Steinmetz¹,

Lyons²,

Song³

et al. 2019

Quantum Communications and Quantum Imaging XVII

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We present an integrated design to precisely measure optical frequency using weak value amplification with a multi-mode interferometer. The technique involves introducing a weak perturbation to the system and then post-selecting the data in such a way that the signal is amplified without amplifying the technical noise, as has previously been demonstrated in a free-space setup. We demonstrate the advantages of a Bragg grating with two band gaps for obtaining simultaneous, stable high transmission and high dispersion. We numerically model the interferometer in order to demonstrate the amplification effect. The device is shown to have advantages over both the free-space implementation and other methods of measuring optical frequency on a chip, such as an integrated Mach-Zehnder interferometer.

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“…In an ideal, quantum-limited situation using coherent laser light, these two effects balance each other for the purposes of making precision measurements [12]. However, in many practical situations there are other noise sources this technique can suppress, such as time-correlated noise [13,14], systematic noise [15,16], and other assorted sources such as jitter and turbulence [17][18][19]. These advantages of implementing weak value amplification are all in spite of the fact that the vast majority of events are discarded.…”

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confidence: 99%

Enhanced weak-value amplification via photon recycling

Krafczyk,

Jordan,

Goggin

et al. 2021

Preprint

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In a quantum-noise limited system, weak-value amplification using post-selection normally does not produce more sensitive measurements than standard methods for ideal detectors: the increased weak value is compensated by the reduced power due to the small post-selection probability. Here we experimentally demonstrate recycled weak-value measurements using a pulsed light source and optical switch to enable nearly deterministic weak-value amplification of a mirror tilt. Using photon counting detectors, we demonstrate a signal improvement by a factor of 4.4 ± 0.2 and a signal-tonoise ratio improvement of 2.10 ± 0.06, compared to a single-pass weak-value experiment, and also compared to a conventional direct measurement of the tilt. The signal-to-noise ratio improvement could reach around 6 for the parameters of this experiment, assuming lower loss elements.

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Noise suppression in inverse weak value-based phase detection

Cited by 9 publications

References 38 publications

Gravitational sensing with weak value based optical sensors

Gravitational sensing with weak value based optical sensors

Precision frequency measurement on a chip using weak value amplification

Enhanced weak-value amplification via photon recycling

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