Creation of an Ultracold Plasma by Photoionizing Laser-Cooled Caesium Atom
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Abstract
The signals of ultracold plasma are observed by two-photon ionization of laser-cooled atom in a caesium magneto-optical trap. A simple model has been introduced to explain the creation of plasma, and the mechanism is further investigated by changing the energy of a pulsed dye laser and the number of initial cooled atoms.
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JING Qun, FENG Zhi-Gang, ZHANG Lin-Jie, LI Chang-Yong, ZHAO Jian-Ming, JIA Suo-Tang. Creation of an Ultracold Plasma by Photoionizing Laser-Cooled Caesium Atom[J]. Chin. Phys. Lett., 2008, 25(12): 4248-4252.
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JING Qun, FENG Zhi-Gang, ZHANG Lin-Jie, LI Chang-Yong, ZHAO Jian-Ming, JIA Suo-Tang. Creation of an Ultracold Plasma by Photoionizing Laser-Cooled Caesium Atom[J]. Chin. Phys. Lett., 2008, 25(12): 4248-4252.
|
JING Qun, FENG Zhi-Gang, ZHANG Lin-Jie, LI Chang-Yong, ZHAO Jian-Ming, JIA Suo-Tang. Creation of an Ultracold Plasma by Photoionizing Laser-Cooled Caesium Atom[J]. Chin. Phys. Lett., 2008, 25(12): 4248-4252.
|
JING Qun, FENG Zhi-Gang, ZHANG Lin-Jie, LI Chang-Yong, ZHAO Jian-Ming, JIA Suo-Tang. Creation of an Ultracold Plasma by Photoionizing Laser-Cooled Caesium Atom[J]. Chin. Phys. Lett., 2008, 25(12): 4248-4252.
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