Add to ORKGIn a recent Letter, Brunner and Simon proposed an interferometric scheme using imaginary weak values with a frequency-domain analysis to outperform standard interferometry in longitudinal phase shifts [Phys. Rev. Lett 105, 010405 (2010)]. Here we demonstrate an interferometric scheme combined with a time-domain analysis to measure longitudinal velocities. The technique employs the near-destructive interference of non-Fourier limited pulses, one Doppler shifted due to a moving mirror in a Michelson interferometer. We achieve a velocity measurement of 400 fm/s and show our estimator to be efficient by reaching its Cramér–Rao bound
We report on the use of an interferometric weak value technique to amplify very small transverse def...
To study the law that governs the complex movements of the mechanism in the process of automatic wea...
We present an interferometric technique for measuring ultrasmall tilts. The information of a tilt in...
In a recent Letter, Brunner and Simon proposed an interferometric scheme using imaginary weak values...
Precision measurements of ultrasmall linear velocities of one of the mirrors in a Michelson interfer...
Recently, weak measurements were used to measure small effects that are transverse to the propagatio...
We demonstrate an experiment which utilizes a Sagnac interferometer to measure a change in optical f...
We experimentally investigate the relative advantages of implementing weak-value-based metrology ver...
Thesis (Ph. D.)--University of Rochester. Dept. of Physics and Astronomy, 2016.This thesis contains ...
A novel scheme for super-sensitive measurement of optical pulse delays is proposed based on the conc...
The technical merits of weak-value-amplification techniques are analyzed. We consider models of seve...
We discuss interferometric parameter estimation of the amplitude, instead of the phase, via weak val...
This paper explores the use of a new velocity measurement technique that has several advantages over...
We probe the use of optical frequency combs to place lower bounds on anomalous amplification of a we...
Controlling the group velocity of light is a valuable resource for quantum and classical optical pro...
We report on the use of an interferometric weak value technique to amplify very small transverse def...
To study the law that governs the complex movements of the mechanism in the process of automatic wea...
We present an interferometric technique for measuring ultrasmall tilts. The information of a tilt in...
In a recent Letter, Brunner and Simon proposed an interferometric scheme using imaginary weak values...
Precision measurements of ultrasmall linear velocities of one of the mirrors in a Michelson interfer...
Recently, weak measurements were used to measure small effects that are transverse to the propagatio...
We demonstrate an experiment which utilizes a Sagnac interferometer to measure a change in optical f...
We experimentally investigate the relative advantages of implementing weak-value-based metrology ver...
Thesis (Ph. D.)--University of Rochester. Dept. of Physics and Astronomy, 2016.This thesis contains ...
A novel scheme for super-sensitive measurement of optical pulse delays is proposed based on the conc...
The technical merits of weak-value-amplification techniques are analyzed. We consider models of seve...
We discuss interferometric parameter estimation of the amplitude, instead of the phase, via weak val...
This paper explores the use of a new velocity measurement technique that has several advantages over...
We probe the use of optical frequency combs to place lower bounds on anomalous amplification of a we...
Controlling the group velocity of light is a valuable resource for quantum and classical optical pro...
We report on the use of an interferometric weak value technique to amplify very small transverse def...
To study the law that governs the complex movements of the mechanism in the process of automatic wea...
We present an interferometric technique for measuring ultrasmall tilts. The information of a tilt in...