Add to ORKGA frequency-tunable source of squeezed light is employed for spectroscopic measurements of atomic cesium. Relative to the usual quantum limit associated with vacuum-state fluctuations, enhanced sensitivity is demonstrated for the detection of Doppler-free resonances in saturation spectroscopy, with an improvement of 3.1 dB directly observed and 3.8 dB inferred after correcting for detector thermal noise
The laws of quantum mechanics imply the existence of an intrinsic uncertainty, or noise, in the elec...
We investigate theoretically and experimentally a nondestructive interferometric measurement of the ...
The two-photon transition (6S(sub 1/2) yields 6D(sub 5/2)) of atomic Cesium is investigated for exci...
A frequency-tunable source of squeezed light is employed for spectroscopic measurements of atomic ce...
A frequency tunable source of squeezed light has been developed which is suitable for a variety of s...
Spectroscopy has played the key role in revealing, and thereby understanding, the structure of atoms...
In this article, we present a novel spectroscopy technique that improves the signal-to-shot-noise ra...
Coherent spectroscopy of degenerate two-level systems of the Doppler-broadened D2 cesium line has be...
We present an experimental realization of resonance fluorescence in squeezed vacuum. We strongly cou...
Vacuum fluctuations of the electromagnetic field set a fundamental limit to the sensitivity of a var...
Vacuum fluctuations of the electromagnetic field set a fundamental limit to the sensitivity of a var...
We present results of recent experiments when cesium vapor were illuminated by the fem-tosecond lase...
We have measured the spectral position of the absorption minimum in a coherent population trapping r...
International audienceSub-Doppler resonances in caesium vapours are studied in a laser field produce...
Squeezed vacuum states at audio-band frequencies are important quantum resources for practical appli...
The laws of quantum mechanics imply the existence of an intrinsic uncertainty, or noise, in the elec...
We investigate theoretically and experimentally a nondestructive interferometric measurement of the ...
The two-photon transition (6S(sub 1/2) yields 6D(sub 5/2)) of atomic Cesium is investigated for exci...
A frequency-tunable source of squeezed light is employed for spectroscopic measurements of atomic ce...
A frequency tunable source of squeezed light has been developed which is suitable for a variety of s...
Spectroscopy has played the key role in revealing, and thereby understanding, the structure of atoms...
In this article, we present a novel spectroscopy technique that improves the signal-to-shot-noise ra...
Coherent spectroscopy of degenerate two-level systems of the Doppler-broadened D2 cesium line has be...
We present an experimental realization of resonance fluorescence in squeezed vacuum. We strongly cou...
Vacuum fluctuations of the electromagnetic field set a fundamental limit to the sensitivity of a var...
Vacuum fluctuations of the electromagnetic field set a fundamental limit to the sensitivity of a var...
We present results of recent experiments when cesium vapor were illuminated by the fem-tosecond lase...
We have measured the spectral position of the absorption minimum in a coherent population trapping r...
International audienceSub-Doppler resonances in caesium vapours are studied in a laser field produce...
Squeezed vacuum states at audio-band frequencies are important quantum resources for practical appli...
The laws of quantum mechanics imply the existence of an intrinsic uncertainty, or noise, in the elec...
We investigate theoretically and experimentally a nondestructive interferometric measurement of the ...
The two-photon transition (6S(sub 1/2) yields 6D(sub 5/2)) of atomic Cesium is investigated for exci...