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Quantum Mechanics for IT/NT/BT 동영상

Quantum Mechanics for IT/NT/BT




Introduce Course

The Contents of a course

Quantum mechanics underlies IT/BT/NT and provides the platform for bridging various disciplines of science and engineering. This course offers the introductory quantum mechanics from the perspective of applications, compact on formulation and long on discussions on semiconductor and optoelectronic devices.
The devices chosen for discussion are p-n junction diode, photodiode and solar cell, LED and laser diode, followed by field effect transistors, e.g. MOSFET, nanowire, tunnel and spin FETs. After a brief review of classical and statistical mechanics and electromagnetism, the quantum treatment of atoms, molecules, chemical bonds and tunneling are discussed. Also included in the discussion are the molecular spectroscopy, nuclear magnetic resonance, molecular imaging, bio-sensor, flash EEPROM cell and quantum computing.
The course is intended for undergraduate seniors and beginning graduate students who are majoring in nanotechnology related areas like physics, materials science, and engineering.

Welcome!

본 강의의 주제는 양자역학입니다.
IT/BT/NT관련 분야를 전공하는 4년 차 학부 학생들과 대학원 초년 생들을 위한 강의입니다. 양자역학은 3T의 뿌리이고 이들 기술의 빠른 발전을 선도하면서 융합기술의 터전도 함께 제공합니다. 특히 스마트화 되고 있는 산업의 기반지식에 직결되어 있습니다.
본 강의는 초보 단계의 영어로 진행됩니다. 학술 용어를 처음부터 영어로 익힘으로써 국제적으로 지식을 교류하고 소통하는 데에 도움이 되고자 내린 결정입니다. 한글자막도 마련했습니다.
수식의 전개는 가능한 한 최소화하였고 관여된 활용의 폭은 개념위주로 주어진 시간 내에서 넓힐 수 있을 만큼 넓혀보았습니다. 학부수학을 기반으로 충분히 따라갈 수 있을 것입니다. 활용분야는 사물인터넷의 HW에 초점을 맞추었습니다, 곧 최신형 반도체 소자, 광전자 소자, 센서, 태양열 전지, 양자 계산, 스핀소자, 분자영상 등입니다.

Application period for classes

Quantum Mechanics for IT/NT/BT : 2019.09.02 ~ 2019.11.17

Sample lecture

Course Plan

Course Plan
Week Lecture Open
1Week 1. Generalities of Quantum Mechanics And Review of Classical Theories 9/2
2. Review of Classical Theories
3. Milestones Leading to Quantum Mechanics 1
4. Milestones Leading to Quantum Mechanics 2
2Week 1. Schrödinger Wave Equation 1 9/9
2. Schrödinger Wave Equation 2
3. Bound States in Quantum Well and Wire 1
4. Bound States in Quantum Well and Wire 2
3Week 1. Scattering and Tunneling of 1D Particle 1 9/23
2. Scattering and Tunneling of 1D Particle 2
3. Energy Bands in Solids 1
4. Energy Bands in Solids 2
4Week 1. Quantum Treatment of Harmonic Oscillator 1 9/30
2. Quantum Treatment of Harmonic Oscillator 2
3. Schrödinger Treatment of Hydrogen Atom 1
4. Schrödinger Treatment of Hydrogen Atom 2
5Week 1. Perturbation Theory 1 10/7
2. Perturbation Theory 2
3. System of Identical Particles 1
4. System of Identical Particles 2
6Week 1. Molecules and Chemical Bonds 1 10/14
2. Molecules and Chemical Bonds 2
3. Molecular Spectra 1
4. Molecular Spectra 2
7Week 1. Atom-Field Interaction 1 10/21
2. Atom-Field Interaction 2
3. Interaction of EM Waves with Optical Media 1
4. Interaction of EM Waves with Optical Media 2
8Week 1. Semiconductor Statistics 1 10/28
2. Semiconductor Statistics 2
3. Carrier Transport 1
4. Carrier Transport 2
9Week 1. P-N Junction Diode: I-V Behavior 1 11/4
2. P-N Junction Diode: I-V Behavior 2
3. P-N Junction Diode: Applications 1
4. P-N Junction Diode: Applications 2
10Week 1. Field Effect Transistors 1 11/11
2. Field Effect Transistors 2
3. The Application and Novel Kinds of FETs 1
4. The Application and Novel Kinds of FETs 2

Course-Staff

Professor

Professor Dae-man Kim image
Dae-mann Kim
The lecturer is Professor Dae-mann Kim who has been teaching Quantum Mechanics to engineering, material science and physics students for over 30 years in USA and Asia. A physicist by training but an engineer by profession, Kim taught over a long period of time in the department of Electrical and Computer Engineering, Rice University, Houston, Texas, USA. He also taught in various universities in Korea, including POSTECH, SNU and SKKU. Currently he is an invited professor in the department of electrical engineering, Korea University.

Teaching Assistant

TA Park
양준영
  • Yjy8711@korea.ac.kr
  • Korea University
  • Course Information

    Complete/evaluation Information

  • After overall evaluation for 10 weeks learning activity, certificate will be issued who passes the prescribed grade regulation.
  • Final grade will only be reflected by Quiz.
  • Quiz will be conducted after each week lecture.
  • Quiz will be allowed up to five times for each week.
  • After overall learning activity evaluation, learners who receive more than 50% score will take the certificate.

  • Text book

    textbook of Quantum Mechanics for IT/NT/BT

  • Dae Mann Kim, 『Introductory Quantum Mechanics for Applied Nanotechnology』, Wiley-VCH; 1 edition(May 26, 2015)
  • ISBN-10: 352741245X
  • ISBN-13: 978-3527412457

  • 관련 강좌

    1. major

      Engineering
      (Electricity & Electronics)
    2. 강좌를 개발하고 운영하는 기관입니다. 컨소시엄으로 운영 시, 대표기관의 명칭이 나타납니다

      univ_name

      KoreaUnivK
    3. 강좌의 구성 주차 수를 의미합니다. (강좌를 충실히 학습하기 위해 필요한 주당 학습시간을 의미합니다.)

      Course Week
      (Estimated Effort)

      10week
      (주당 02시간 00분)
    4. 본 강좌 이수자에게 인정되는 학습시간으로 해당 강좌의 동영상, 과제, 시험, 퀴즈, 토론 등의 시간을 포함합니다. (강의 내용과 관련된 동영상 재생 시간의 총 합계입니다.)

      Accredited learning time
      (Video Duration)

      20시간 20분
      (13시간 35분)
    5. 수강신청이 가능한 기간으로 해당 기간 내에만 수강신청이 가능합니다.

      Course Registration Period

      2019.08.22 ~ 2019.11.17
    6. 강좌가 운영되고 교수지원이 이루어지는 기간입니다. 이수증은 강좌운영기간이 종료된 이후에 발급받을 수 있습니다.

      Classes Period

      2019.09.02 ~ 2019.11.17
    Enroll