Synthetic Lorentz force in classical atomic gases via Doppler effect and radiation pressure. Dubček, T.; Šantić, N.; Jukić, D.; Aumiler, D.; Ban, T.; and Buljan, H. arXiv, 063415:2-6, 2014.
Synthetic Lorentz force in classical atomic gases via Doppler effect and radiation pressure [link]Website  abstract   bibtex   
We theoretically predict a novel type of synthetic Lorentz force for classical (cold) atomic gases, which is based on the Doppler effect and radiation pressure. A fairly uniform and strong force can be constructed for gases in macroscopic volumes of several cubic millimeters and more. This opens the possibility to mimic classical charged gases in magnetic fields, such as those in a tokamak, in cold atom experiments.
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 title = {Synthetic Lorentz force in classical atomic gases via Doppler effect and radiation pressure},
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 year = {2014},
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 pages = {2-6},
 volume = {063415},
 websites = {http://arxiv.org/abs/1402.7251},
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 abstract = {We theoretically predict a novel type of synthetic Lorentz force for classical (cold) atomic gases, which is based on the Doppler effect and radiation pressure. A fairly uniform and strong force can be constructed for gases in macroscopic volumes of several cubic millimeters and more. This opens the possibility to mimic classical charged gases in magnetic fields, such as those in a tokamak, in cold atom experiments.},
 bibtype = {article},
 author = {Dubček, T and Šantić, N and Jukić, D and Aumiler, D and Ban, T and Buljan, H},
 journal = {arXiv}
}
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