物理化学特論IV(東京大学)
Advanced Physical Chemistry IV (The University of Tokyo)
現在の希望状況
Current status |
聴講希望受付期間外です |
| 大学 University |
東京大学
The University of Tokyo |
| 研究科等 Graduate School |
理学系研究科
School of Science |
| 学内講義コード Course code |
35606-0017 |
講義名
Course title |
物理化学特論IV
Advanced Physical Chemistry IV |
教員名
Teaching staff |
COLLET Eric 加納 英明
COLLET Eric Hideaki KANO |
| 聴講希望受付 Registration period |
2018/04/01〜2018/04/30
Apr 1, 2018 — Apr 30, 2018 |
| 単位数 Credit |
1 |
| 開講言語 Language |
英語
English |
説明
Course details |
5/17(木) Thu. May 17
エリック・コレット教授(レンヌ第一大学) Prof. Eric Collet (University of Rennes 1.)
Structural analysis of photoinduced phase transitions.
Multifunctional materials evidence changes of physical properties when excited by light, such as photomagnetism, photoconductivity or photochromism. If the change of electronic state is an important component of the change of physical properties, the structural reorganization plays a central role in the trapping and stabilization of the photoinduced state and symmetry changes may also be involved in the process. Femtosecond structural techniques developed at X-FEL (X-ray free electron laser), or electron diffraction, allow for real time watching of electronic and structural reorganizations on the femtosecond timescale. During this lecture we will introduce basics of crystallography, X-ray or electron diffraction and scattering and introduce ultrafast pump-probe techniques. Diverse scientific cases will illustrate what can be learned at the electronic, atomic or molecular scale on photoinduced phase transitions.
6/13(水) Wed. June 13
加納英明准教授(筑波大学) A. Prof. Hideaki Kano (Tsukuba University)
Nonlinear optical spectroscopy has become a powerful bioimaging tool for the sensitive detection of various biomolecules. In this lecture, we will learn about the fundamentals of the nonlinear interactions of light with molecules using the density matrix, and then learn about advanced molecular imaging methods that use nonlinear optical processes.
The lecture syllabus will cover
1. the Schrödinger equation and the quantum Liouville equation;
2. the nonlinear interactions of light with molecules;
3. various nonlinear optical processes, especially nonlinear Raman scattering; and
4. molecular imaging using nonlinear optical processes.
非線形(光学)分光法は、複数の生体分子を高感度に検出できる強力なバイオイメージング手法として、近年特に注目が集まっている。本講義では、光と分子との非線形な相互作用について、密度行列を用いた定式化を基礎から学んだ上で、非線形光学過程を用いた最先端の分子イメージング手法を学習する。
講義の概要は以下の通りである。
1.Schrödingerの波動方程式とLiouville方程式
2.光と分子との非線形な相互作用
3.様々な非線形光学過程、特に非線形ラマン散乱
4.非線形光学過程を用いた分子イメージング |
キーワード
Keywords |
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| 備考 Notes |
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| URL |
http://catalog.he.u-tokyo.ac.jp/g-detail?code=35606-0017&year=2018&x=22&y=10 |
定員
Number of seats |
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| 講義回数 Number of lectures |
2 |
第1回講義
Lecture 1 |
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講義室
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日時
- 05/17 10:00 ~ 05/17 16:30
May 17, 10:00 ~ May 17, 16:30
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第2回講義
Lecture 2 |
-
講義室
-
日時
- 06/13 10:00 ~ 06/13 16:30
Jun 13, 10:00 ~ Jun 13, 16:30
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