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第20讲-电子和振动光谱学

Lecture 20 - Electronic and Vibrational Spectroscopy
课程网址: http://videolectures.net/yalespan125bs2011_mcbride_lec20/  
主讲教师: J. Michael McBride
开课单位: 耶鲁大学
开课时间: 2014-08-19
课程语种: 英语
中文简介:
含时量子力学显示了不同能量的混合轨道如何引起电子振动。将1s与2p混合会产生一种可以吸收或产生光的振动,而将1s与2s混合会产生与光不相互作用的“呼吸”。许多天然的有机生色团包括混合一个非共享电子对和一个空位π轨道,其共轭决定颜色。红外光谱揭示了原子的振动频率,这与胡克定律与键强度和“还原”质量有关。红外光谱因频率相似的本振子的耦合而变得复杂,从而产生“正常”模式。烷烃链具有典型的拉伸和弯曲模式,具有描述性名称,可以吸收红外光,也可以不吸收红外光。
课程简介: Time-dependent quantum mechanics shows how mixing orbitals of different energy causes electrons to vibrate. Mixing 1s with 2p causes a vibration that can absorb or generate light, while mixing 1s with 2s causes "breathing" that does not interact with light. Many natural organic chromophores involve mixing an unshared electron pair with a vacant pi orbital, whose conjugation determines color. Infrared spectra reveal atomic vibration frequencies, which are related by Hooke’s law to bond strengths and "reduced" masses. Infrared spectra are complicated by the coupling of local oscillators of similar frequency to give "normal" modes. Alkane chains possess characteristic stretching and bending modes, with descriptive names, that may, or may not, absorb infrared light.
关 键 词: 量子力学; 光的振动; 红外光谱
课程来源: 视频讲座网
数据采集: 2021-11-18:zkj
最后编审: 2021-11-18:zkj
阅读次数: 110