3. 강의목표
The objective of this course is to introduce fundamental concepts necessary for comprehending the symmetry and crystal structure of materials, encompassing both real space and reciprocal space lattices. Additionally, the course will cover the theory of X-ray diffraction and explore various X-ray diffraction methods employed for determining the crystal structure and atomic arrangement of materials.
4. 강의선수/수강필수사항
General Physics and Math
5. 성적평가
Homework (40%), Exam (60%)
6. 강의교재
| 도서명 |
저자명 |
출판사 |
출판년도 |
ISBN |
|
Elements of X-ray Diffraction, 3rd edition
|
B.D. Cullity and S.R. Stock
|
Addison-Wesley Publishing Company
|
2001
|
0-201-61091-4
|
7. 참고문헌 및 자료
X-ray Diffraction, Dover Publications Inc. (1990), B.E Warren
Elements of Modern X-ray Physics, Jens Als-Nielsen, Des McMorrow, John Wiley & Sons
8. 강의진도계획
I. Introduction and Overview of X-ray Diffraction
II. Crystallography
1. Atomic Packing and Crystal Chemistry
2. Formal Crystallography
a. Lattices and unit cells
b. Stereographic Projections
c. Symmetry
III. X-ray Diffraction Physics
1. Bragg's law
2. Reciprocal space and real space
3. Ewald sphere construction
4. Scattering by an electron
5. Scattering by an atom
6. Scattering by a unit cell
7. Fourier series methods
8. Electron diffraction/Neutron diffraction
IV. X-ray Diffractometer
1. Production of x-rays
2. X-ray optics and alignment
3. Goniometer and Eulerian cradle
4. Monochromator
5. Filters and slits
6. Detectors
V. X-ray Diffraction Techniques and Analysis
1. Powder diffraction
- Crystal structure determination and space group, Phase identification
2. Single crystal diffraction
- Orientation and miscut, Lattice parameters, Rocking curves
3. Thin film diffraction
-Textures (out-of-plane and in-plane), Lattice parameters, RSM
4. Superlattice diffraction
- Periodicity, Interfaces, Computer simulation
11. 장애학생에 대한 학습지원 사항
- 수강 관련: 문자 통역(청각), 교과목 보조(발달), 노트필기(전 유형) 등
- 시험 관련: 시험시간 연장(필요시 전 유형), 시험지 확대 복사(시각) 등
- 기타 추가 요청사항 발생 시 장애학생지원센터(279-2434)로 요청