GRK 463: Spectroscopy of Localized Atomic Systems. Fields and Localized Atoms ? Atoms and Localized Fields

GRK 463：局域原子系统的光谱学。

• 批准号: 272543
• 金额: --
• 依托单位: Universität Hamburg
• 依托单位国家: 德国
• 项目类别: Research Training Groups
• 财政年份: 1999
• 资助国家: 德国
• 起止时间: 1998-12-31 至 2004-12-31
• 项目状态: 已结题
• 来源: https://gepris.dfg.de/gepris/projekt/272543?language=en
• 关键词: GRK; 463; Spectroscopy; Localized; Atomic

The research training group "Spectroscopy of Localized Atomic Systems" at the faculty of physics at the University of Hamburg connects the fields of atomic physics, solid-state physics, laser physics, and quantum optics. The research work of the members of the research training group is combined with supplemental lectures, seminars, and workshops in order to achieve an outstanding education and a deep knowledge in a broad research field. The curriculum particularily focuses on the traditionally strong spectroscopic activities at the University of Hamburg. The research training group contains five main topics. The research groups apply various spectroscopic methods for the investigation of: -- Localized single atoms in optical traps: "Light interaction with single localized atomic particles".-- Localized atoms in light lattices: "Optical crystals - cold atoms in periodic potentials".-- Localized atoms on solid-state surfaces: "Resonant and spin-resolved photo-electron-spectroscopy and raster-tunnel microscopy on adsorbed rare-earth atoms".-- Localized atoms in crystals: "Spectroscopic properties and relaxation processes of localized atoms in crystals, matrices, and clusters".-- Atoms in semiconducting microcavities: "Spectroscopy of atom-like excitations in microcavities".These systems can be used in the fields of quantum optics, laser physics, and optoelectronics. Graduates of the research training group have excellent chances to find a job in these modern growing fields.

汉堡大学物理系的研究培训小组“定域原子系统光谱学”将原子物理学、固态物理学、激光物理学和量子光学领域联系起来。研究培训小组成员的研究工作与补充讲座，研讨会和讲习班相结合，以实现在广泛的研究领域的杰出教育和深入的知识。课程特别侧重于汉堡大学传统上强大的光谱活动。研究培训小组包括五个主要专题。研究小组应用各种光谱方法进行研究：--光阱中的局域化单原子：“光与单个局域化原子粒子的相互作用”。光晶格中的局域原子：“光学晶体-周期性势中的冷原子”。固体表面上的局域化原子：“吸附稀土原子的共振和自旋分辨光电子光谱学和光栅隧道显微镜”。晶体中的局部原子：“晶体、基质和团簇中局部原子的光谱性质和弛豫过程”。--半导体微腔中的原子：“微腔中类原子激发的光谱学”。这些系统可用于量子光学、激光物理和光电子学领域。研究培训小组的毕业生有很好的机会在这些现代化的增长领域找到工作。