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- Q163117 subject Q6565519.
- Q163117 subject Q6965975.
- Q163117 subject Q7213738.
- Q163117 subject Q8796699.
- Q163117 abstract "Laser cooling refers to a number of techniques in which atomic and molecular samples are cooled down to near absolute zero through the interaction with one or more laser fields. All laser cooling techniques rely on the fact that when an object (usually an atom) absorbs and re-emits a photon (a particle of light) its momentum changes. The temperature of an ensemble of particles is larger for larger variance in the velocity distribution of the particles. Laser cooling techniques combine atomic spectroscopy with the aforementioned mechanical effect of light to compress the velocity distribution of an ensemble of particles, thereby cooling the particles.The first example of laser cooling, and also still the most common method (so much so that it is still often referred to simply as 'laser cooling') is Doppler cooling. Other methods of laser cooling include: Sisyphus cooling Resolved sideband cooling Raman Sideband Cooling Velocity selective coherent population trapping (VSCPT) Cavity mediated cooling Use of a Zeeman slower Electromagnetically induced transparency (EIT) cooling↑ ↑ ↑ ↑".
- Q163117 thumbnail Doppler_laser_cooling.svg?width=300.
- Q163117 wikiPageExternalLink lascool.html.
- Q163117 wikiPageExternalLink 9780198506959.do.
- Q163117 wikiPageExternalLink Foot%20C.J.%20Atomic%20physics%20%28Oxford,%202005%29%28ISBN.pdf.
- Q163117 wikiPageExternalLink 6631.
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- Q163117 wikiPageWikiLink Q6565519.
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- Q163117 wikiPageWikiLink Q6965975.
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- Q163117 wikiPageWikiLink Q8796699.
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- Q163117 wikiPageWikiLink Q918552.
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- Q163117 comment "Laser cooling refers to a number of techniques in which atomic and molecular samples are cooled down to near absolute zero through the interaction with one or more laser fields. All laser cooling techniques rely on the fact that when an object (usually an atom) absorbs and re-emits a photon (a particle of light) its momentum changes. The temperature of an ensemble of particles is larger for larger variance in the velocity distribution of the particles.".
- Q163117 label "Laser cooling".
- Q163117 depiction Doppler_laser_cooling.svg.