| Course title | |||||
| 原子分子分光学 [Atomic and Molecular Spectroscopy] | |||||
| Course category | courses for master's programs | Requirement | Credit | 2 | |
| Department | Year | ~ | Semester | 3rd | |
| Course type | 3rd | Course code | 1060402 | ||
| Instructor(s) | |||||
| 鵜飼 正敏 [UKAI Masatoshi] | |||||
| Facility affiliation | Faculty of Engineering | Office | Email address | ||
| Course description |
|
Register to the Googleclassroom of the Class-code: 5gwaxhz Students should bring in the lecture room L1342 with their own personal notebook PC. The details of the lectures are shown in the GoogleClassroom. Through the Classroom, the reference materials will be provided. Submission of the requested reports are also to be made through it as well. Atoms and molecules are the smallest units showing the properties of materials. Due to these reasons it is of significant importance to understand the basic quantum theories of atoms and molecules and to obtain intuitive insight of them in dealing with various phenomena of materials science. |
| Expected Learning |
|
1) To become able to qualitatively explain the electronic stuctures of many-electron atoms based on the understanding of the approximation methods for their energies and wave functions. 2) To become able to explain the spectroscopic propertis of diatomic molecules based on the understanding of the cause of chemical bonds. 3) To become able to outline the recent topics of atomic and molecular spectroscopy. |
| Course schedule |
|
(1) Introduction. (2) Revision to the one-electron and two-electron atoms (I). (3) Revision to the one-electron and two-electron atoms (II). (4) Wave functions of many-electron atoms; basic concept. (5) Internal potentials of many-electron atoms. (6) Approximation methods for internal potentials and wave functions of many-electron atoms (I). (7) Approximation methods for internal potentials and wave functions of many-electron atoms (II). (8) Chmeical bond: hydrogen moleclar ion. (9) Chmeical bond: hydrogen molecle. (10) Molecular structure: complex diatomic molecules. (11) Rotational spectra of diatomic mouecules (12) Ro-vibrational spectra of diatomic mouecules. (13) Electronics spectra of diatomic molecules. (14) Luminescence, non-radiative decay and bond dissociation of excited molecules. (15) Superexcited molecules. |
| Prerequisites |
|
"Quantum mechanics I and II", "Atomic and Molecular Physics" are assumed to be completed. Learning "Applied Quantum Mechanics" is highly recommended. |
| Required Text(s) and Materials |
| Not specified. Summary of lecture notes will be provided. |
| References |
| 1) B.H.Bransden and C.J.Joachain, Physics of atoms amd molecules (Pearson Education, 2nd edition). |
| Assessment/Grading |
|
Quizzes at the begining and at the end of every lecture. Examination at the end of semester. |
| Message from instructor(s) |
| Keep your brains operating appropriately! |
| Course keywords |
| Quantum Mechnics, Many-Electron Atoms and Molecules, and Molecular Spectra. |
| Office hours |
| Welcome at office. Need appointments beforehand by Email. |
| Remarks 1 |
| Remarks 2 |
| Related URL |
| Lecture Language |
| Japanese |
| Language Subject |
| Last update |
| 9/29/2022 7:57:48 PM |