Download Lecture Syllabus Course Title: Crystal Structure and Crystallography

Lecture Syllabus
Course Title:
Crystal Structure and Crystallography of Materials (재료구조론)
Course Number:
4451.601
Instructor:
Ki-Bum Kim (김기범),
Contact Information:
131-108 (Research Institute of Advanced Materials Building)
E-mail: [email protected]
Tel.: 880-7095, 010-8232-7095
Class Time and Class Room:
Monday and Wednesday (14:00 – 15:15)
Room 33-226
Teaching Assistant:
이기단 Kidan Lee, [email protected]
강재현 Jae-Hyun Kang, [email protected]
이상훈 Sang-Hoon Lee, [email protected]
(Office: 131-201)
(Every announcement will be posted on board at http://nfl.snu.ac.kr)
Textbook:
No Textbook. We will rely on class handout (PDF file).
References:
The Basics of Crystallography and Diffraction, Third Edition (2009), C.
Hammond, Oxford Science Publications
Crystallography and Crystal Defects, Revised Edition, A. Kelly,
G.W. Groves, and P. Kidd, Wiley, 2000
Grade:
Homework / Problem Session (20%)
Midterm Exam 1 (20%)
Midterm Exam 2 (20%)
Final Exam. (40%)
Course Description:
This course deals with the crystal structure and crystallography for the first year graduate students
at the Department of Materials Science and Engineering. The students majored in other areas
such as Solid-State Physics, Chemistry, and Chemical Engineering are also encouraged to take this
course (on the condition that they do not miss the class).
The course is divided into three sections. The first part is the crystal structure and describes how
the simple metallic structure and complicate structures like ionic structure and covalently bonded
structure is formed. The details of atomic structure of defects, like dislocations, twins, grain
boundaries, and surface, which controls the mechanical, electrical, and optical properties of
materials, will also be examined.
The second part is the crystallography. Based on the introduction of symmetry elements such as
rotational and reflection symmetry, the seven crystal systems, 14 Bravais lattice, and 32 point
groups will be derived. Moreover, the introduction of screw and glide plane symmetry will lead
how to derive 230 space groups.
Final part is the analysis of diffraction pattern. In this part, the basics of diffraction physics will be
explained and the analysis of crystal structure by using x-ray, electron beam, and neutron beam
will be studied. The analysis of crystal structure of the surface by using LEED (low energy electron
diffraction) will also be introduced.
Contents:
Chapter 1:
Introduction of the Course
Chapter 2:
Simple Metallic Structure (SC, BCC, FCC, HCP)
Chapter 3:
Ionic Structure and Covalent Structure
Chapter 4:
Surface Structure and Defect Structure (Dislocation, Twin, Stacking Fault,
Grain Boundaries)
Chapter 5:
Stereographic Projection
Chapter 6:
Derivation of 7 Crystal Systems and 14 Bravais Lattices (part I)
Chapter 7:
Derivation of 7 Crystal Systems and 14 Bravais Lattices (Part II)
Chapter 8:
Derivation of 32 Point Groups I
Chapter 9:
Derivation of 32 Point Groups II
Chapter 10:
Space Group Derivation I
Chapter 11:
Space Group Derivation II
Chapter 12:
Diffraction Theory I
Chapter 13:
Diffraction Theory II
Chapter 14:
X-Ray Diffraction I
Chapter 15:
X-Ray Diffraction II
Chapter16:
Electron and Neutron Diffraction