Laser cooling and trapping of atoms 激光冷却和囚禁原子 原子是物质世界中基本粒子之一,尽管它们非常微小,但它们在许多科学和技术领域中发挥着重要作用。在这篇文章中,我将介绍激光冷却和囚禁原子的技术,这是一项重要的实验技术,它鼓励了物理学家、化学家、生物学家和工程师对原子行为的深入探索,并在几个领域创造...
2) laser cooling and trapping 激光冷却与囚禁 1. It satisfied the requirement oflaser cooling and trappingof atoms. 用饱和吸收光谱法对二极管激光器进行稳频 ,使激光器的有效线宽小于 1MHz,并利用声光调制器使激光的频移量得到控制 ,满足了激光冷却与囚禁原子对激光频率稳定性和频移量的要求 ,实现了 Rb原...
Laser Cooling and Trapping of Rubidium AtomsSimpson, Warwick James
1) laser cooling and trapping atoms 激光冷却原子 2) laser cooling-Cs fountain 激光冷却铯原子喷泉 3) laser trapping and cooling of atoms 原子激光冷却与捕获 4) optical cooling and trapping 激光冷却与囚禁原子 5) laser cooling and trapping on strontium ...
H. Metcalf: ‘Laser cooling and magnetic trapping of neutral atoms’. In: Methods of Laser Spectroscopy , ed. by Y. Prior, A. Ben-Reuven, M. Rosenbluth (Plenum, New York 1986) p. 33H. Metcalf: Laser cooling and magnetic trapping of neutral atoms, in Methods of Laser Spectroscopy , ...
The author gives an overview of neutral atom laser cooling and trapping concentrating on experimental work in Gaithensburg. He follows the thread that leads from laser deceleration and cooling of atomic beams (Phillips and Metcalf, 1982; Prodan et al, 1982; Phillips and Prodan, 1984; Prodan et...
网络雷射冷却与囚禁;激光冷却和陷俘;激光冷却与俘获 网络释义 1. 雷射冷却与囚禁 ...达成此一量子简并态之 实验原理,方式与过程. 二,雷射冷却与囚禁(Laser Cooling and Trapping) 利用雷射光束与一对反赫氏线 … wenku.baidu.com|基于3个网页 2.
C.J. Foot: Laser cooling and trapping of atoms. Contemp. Phys. 32, 369 (1991) Article ADS Google Scholar S. Chu: Laser trapping of neutral particles. Sci. Am. 266(2), 48 (1992) Google Scholar C. Cohen-Tannoudji: Laser cooling and trapping of neutral atoms: Theory. Phys. Rep. ...
Demonstration of Laser Cooling and Trapping of Atoms 来自 Semantic Scholar 喜欢 0 阅读量: 16 作者: S Chu 摘要: The program was to explore the use of light to manipulate atoms And other particles, particularly the cooling and trapping of atoms, the manipulation of biological molecules, and ...
Herbert Kroemer of the Varian Central Research Laboratory proposes heterostructures to improve performance of diodelasers. Zhores I. Alferov and Rudolf Kazarinov at Ioffe Institute file the original patent on the double heterostructure laser. <-- 双异质结半导体激光器的开端 ...