Detection of individual atoms in helium buffer gas and observation of their real-time motion
- 1 November 1980
- journal article
- Published by Optica Publishing Group in Optics Letters
- Vol. 5 (11) , 459-461
- https://doi.org/10.1364/ol.5.000459
Abstract
Single atoms are detected and their motion measured for the first time to our knowledge by the fluorescence photon-burst method in the presence of large quantities of buffer gas. A single-clipped digital correlator records the photon burst in real time and displays the atom's transit time across the laser beam. A comparison is made of the special requirements for single-atom detection in vacuum and in a buffer gas. Finally, the probability distribution of the bursts from many atoms is measured. It further proves that the bursts observed on resonance are due to single atoms and not simply to noise fluctuations.Keywords
This publication has 10 references indexed in Scilit:
- Individual Particle Scattering and Single-burst Digital Correlation for Remote Atmospheric Wind MeasurementsOptica Acta: International Journal of Optics, 1979
- Single-atom detection of ytterbium by selective laser excitation and field ionization from Rydberg statesOptics Letters, 1978
- One-atom detection in individual ionization tracksOptics Letters, 1978
- Measuring the velocity of individual atoms in real timeOptics Letters, 1978
- High resolution laser spectroscopy with minute samplesOptics Communications, 1977
- Saturated photodissociation of CsIChemical Physics Letters, 1977
- Saturated optical nonresonant emission spectroscopy (SONRES) for atomic detectionApplied Physics Letters, 1977
- A demonstration of one-atom detectionApplied Physics Letters, 1977
- Absolute measurement of very low sodium-vapor densities using laser resonance fluorescence*Journal of the Optical Society of America, 1975
- Rayleigh Scattering of Ruby-Laser Light by Neutral Gases*Journal of the Optical Society of America, 1968