無機光機能材料論
Optical and Functional Inorganic Materials
形態
講義および演習
目的
This cource aims to learn the fundamentals of material science of such as single crystals, polycrystals or amorphous films for optical and functional materials. At the same time, the synthesis methods of various films, their evaluation techniques and the propagating optical beam and acoustic waves in crystals are lectured. Apart from above, semiconductor device physics is also included.
概要
Fundamentals of crystal science is lectured at first. Optical and electronic processes in optical and functional materials such as single crystals, polycrystals or amorphous films are followed. Advanced solid state physics of semiconductors, dielectric and ferroelectric materials are included. Synthesis methods of optical and functional crystals and films, evaluation methods of film properties are also contained. Electro-optical and piezo-electrical effects and solid state physics relating with their effects, characterization of crystals, symmetry elements of crystals and material constants,optical properties of crystals, electro-optical effects and nonlinear effects, piezoelectricity, acoustic waves in crystal,interaction of phtons and phonons in crystal, synthesis methods of thin films (PVD method; electron beam evaporation, MBE, sputtering, laser ablation), film properties (charaterizations of electrical, optical and mechanical properties) are included. In addition, modern semiconductor device physics, such as hot carrier effects, deep trap effect, short channel effects, etc will be lectured.
キーワード
機能材料,半導体デバイス,結晶光学,薄膜工学,薄膜合成法
関連科目
目標
1. | 圧電性結晶や機能性薄膜についての物性を理解する. |
計画
1. | 結晶の特徴と記述法 |
2. | 結晶の対象要素と物質定数 1 |
3. | 結晶の対象要素と物質定数 2 |
4. | 結晶の光学的性質 1 |
5. | 結晶の光学的性質 2 |
6. | 電気光学効果と非線形光学効果 1 |
7. | 電気光学効果と非線形光学効果 2 |
8. | 圧電気現象 1 |
9. | 圧電気現象 2 |
10. | 結晶中の音波1 |
11. | 結晶中の音波2 |
12. | 結晶中の音と光 |
13. | 薄膜の作製法1(特にPVD法 |
14. | 薄膜の作製法2(特にPVD法 |
15. | 薄膜の諸性質(特徴,電気的光学的性質,機械的性質) |
16. | テスト |
評価
テーマに対応するレポートと最終回の総合テストにより評価する.
再評価
再試験は第1回の試験で60-40点までの者に対しておこなう. 評価点の最高は79点とする. 第1回試験において,40点未満の場合は再受講とする.
対象学生
開講コース学生のみ履修可能
教科書
小川智哉著,結晶工学の基礎,裳華房;権田俊一監修,薄膜作製応用ハンドブック,エヌ·ティー·エス
連絡先
備考
国際連携大学院担当教員科目のため英語授業となる場合がある.