AY 2017 Undergraduate School Course Catalog AY 2017 Undergraduate School Course Catalog AY 2017 Undergraduate School Course Catalog
| 2018/01/30 |
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| 開講学期 /Semester |
2017年度/Academic Year 前期 /First Semester |
|---|---|
| 対象学年 /Course for; |
1st year |
| 単位数 /Credits |
2.0 |
| 責任者 /Coordinator |
Katsutaro Shimizu |
| 担当教員名 /Instructor |
Katsutaro Shimizu, Michio Honma, Akira Fujitsu, Masayuki Yamagami, Saji N. Hameed |
| 推奨トラック /Recommended track |
- |
| 履修規程上の先修条件 /Prerequisites |
- |
| 更新日/Last updated on | 2017/01/25 |
|---|---|
| 授業の概要 /Course outline |
Physics is a foundation of all the natural sciences and dynamics is a basis of physics. Some notions such as mass, conservation laws,energy, and potential in dynamics appear in the other physics, computer science and other natural sciences. The contents of lectures are some concrete examples of motions of a particle and others. In the exercise class, computer simulations are performed on PC. |
| 授業の目的と到達目標 /Objectives and attainment goals |
Coordinate system,equation of motion,some examples of motion, momentum, work, energy, angular momentum and the law of gravity are studied. |
| 授業スケジュール /Class schedule |
1,a coordinate system and a motion ; chapter 1 2,a motion of matter ; chapter 2 3, the laws of motion; chapter 3 4, a motion and a force; chapter 4 5,a motion and a force; chapter 4 6,a work and an energy; chapter 5 7, a work and an energy in three dimension; chapter 6 8, midterm examination 9,a conserved force and a potential; chapter 7 10, a motion with a resistance; chapter 8 11,an oscillation; chapter 8 12,a collision ; chapter 9 13, an angular momentum I; chapter 11 14, an angular momentum II; chapter 11 15, the law of gravity; chapter 10 |
| 教科書 /Textbook(s) |
*For Regular course* "Dynamics" Sagawa Hiroyuki, Homma michio maruzen *For ICT Global course* "An Introduction to Mechanics" Daniel Kleppner and Robert Kolenkow, Cambridge University Press |
| 成績評価の方法・基準 /Grading method/criteria |
mid-term examination(45%), end-term examination(45%), others(10%) |
| 履修上の留意点 /Note for course registration |
Formal prerequisites:None *For ICT Global course* ・Term: 2016/Academic Year・3rd Quarter ・Instructor: Hameed Saji N. |
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| 開講学期 /Semester |
2017年度/Academic Year 後期 /Second Semester |
|---|---|
| 対象学年 /Course for; |
1st year |
| 単位数 /Credits |
2.0 |
| 責任者 /Coordinator |
Katsutaro Shimizu |
| 担当教員名 /Instructor |
Katsutaro Shimizu, Michio Honma, Akira Fujitsu, Masayuki Yamagami, Maxim V. Ryzhii |
| 推奨トラック /Recommended track |
- |
| 履修規程上の先修条件 /Prerequisites |
- |
| 更新日/Last updated on | 2017/01/25 |
|---|---|
| 授業の概要 /Course outline |
A characteristic and new feature of an electromagnetism is a field such as an electric field and a magnetic field. This concept does not appear in a dynamics. However this is a fundamental idea of a modern physics.It is important to study that the all of the actions are performed through the field. |
| 授業の目的と到達目標 /Objectives and attainment goals |
Electric field, Gauss's law, magnetic field, Ampere's law and electromagnetic induction are studied. After that, Maxwell's equations and the electromagnetic wave are introduced. |
| 授業スケジュール /Class schedule |
1.Coulomb's law; chapter 1 2. Gauss's law; chapter 2 3. differential formula of Gauss's law; chapter 2 4. electrostatic potential and electrostatic energy; chapter 3 5. Poisson's equation; chapter 4 6. capacitor; chapter 5 7. static current chapter 6 8. midterm examination 9. Ampere's force ; chapter 7 10. Biot-Savart's law ; chapter 7 11, vector potential ; chapter 8 12, electromagnetic induction; chapter 9 13. inductance; chapter 10 14. displacement current and Maxwell's equations ; chapter 12 15. electromagnetic wave; chapter 12 |
| 教科書 /Textbook(s) |
*For Regular course* "Electromagnetism" Sagawa Hiroyuki, Homma michio maruzen *For ICT Global course* "Schaum's Outline of Electromagnetics" Joseph A. Edministert and Mahmood Nahvi, McGraw-Hill Education |
| 成績評価の方法・基準 /Grading method/criteria |
*For Regular course* "Electromagnetism" Sagawa Hiroyuki, Homma michio maruzen *For ICT Global course* "Schaum's Outline of Electromagnetics" Joseph A. Edministert and Mahmood Nahvi, McGraw-Hill Education |
| 履修上の留意点 /Note for course registration |
Formal prerequisites:None *For Global-ICT course* ・Term: 2016/Academic Year・4th Quarter ・Instructor: Maxim V. Ryzhii |
| 参考(授業ホームページ、図書など) /Reference (course website, literature, etc.) |
"Electromagnetism" Oobayashi kouji Kyouritu shuppan |
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| 開講学期 /Semester |
2017年度/Academic Year 前期 /First Semester |
|---|---|
| 対象学年 /Course for; |
2nd year |
| 単位数 /Credits |
2.0 |
| 責任者 /Coordinator |
Katsutaro Shimizu |
| 担当教員名 /Instructor |
Michio Honma, Katsutaro Shimizu |
| 推奨トラック /Recommended track |
- |
| 履修規程上の先修条件 /Prerequisites |
NS1 or NS2 |
| 更新日/Last updated on | 2017/01/25 |
|---|---|
| 授業の概要 /Course outline |
Quantum mechanics deal with very small particles such as an electron or an atom. It is difficult for beginners to understand quantum mechanics because we cannot see any phenomena concerning to quantum mechanics and quantum mechanics is much different from classical mechanics. Lectures treat a problem of the square well potential mainly as a concrete example |
| 授業の目的と到達目標 /Objectives and attainment goals |
wave particle duality of microscopic matter. Schrodinger equation and some application |
| 授業スケジュール /Class schedule |
1. review of wave; chapter 10 2. wave particle duality of light; chapter 2 3. photoelectric effect and Compton effect; chapter 2 4. wave-like property of matter; chapter 3 5. uncertainty principle; chapter 4 6. Shcrodinger equation; chapter 5 7 midterm examination 8. square well potential I; chapter 6 9. square well potential II; chapter 6 10. square well potential III; chapter 6 11. harmonic oscillator; chapter 7 12. tunneling effect; chapter 7 13. spin-I; chapter 8 14 spin-II;chapter 8 15 summary |
| 教科書 /Textbook(s) |
”Quantum Mechanics" Sagawa Hiroyuki, Shimizu Katsutaro maruzen |
| 成績評価の方法・基準 /Grading method/criteria |
mid-term examination(45%), end-term examination(45%), others(10%) |
| 履修上の留意点 /Note for course registration |
初めて量子力学を学ぶ人にとっては、前半がわかりずらい。がまんしてそこを乗りきれば、量子力学がどういうものかわかってくる。 |
| 参考(授業ホームページ、図書など) /Reference (course website, literature, etc.) |
「量子力学と私」のなかの「光子の裁判」 朝永振一郎著, 岩波文庫 |
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| 開講学期 /Semester |
2017年度/Academic Year 3学期 /Third Quarter |
|---|---|
| 対象学年 /Course for; |
2nd year |
| 単位数 /Credits |
2.0 |
| 責任者 /Coordinator |
Yukihide Kohira |
| 担当教員名 /Instructor |
Tsuneo Tsukahara, Yukihide Kohira, Yoichi Tomioka |
| 推奨トラック /Recommended track |
SD,VD |
| 履修規程上の先修条件 /Prerequisites |
- |
| 更新日/Last updated on | 2017/01/30 |
|---|---|
| 授業の概要 /Course outline |
ICT in our current society is fundamentally supported by the semiconductor technologies. They have been applied to Internet servers, network infrastructures, and electronics gadgets such as PCs, telephones, and to enormous transportation machinery markets, like automobiles in recent years. The technologies have been so widely and deeply spread into our human life fundamentals, that we may not be able to sense their existence. Especially, in a few ten years, they have drastically changed our modern human life styles. This course will give the fundamental knowledge, principles, and the summarized history of the semiconductor technologies. We will focus the CMOS technologies and the optical applications because these areas are cores of our ICT societies and strongly related our computer-centered curriculum. |
| 授業の目的と到達目標 /Objectives and attainment goals |
1. Students will be able to understand physical and chemical fundamentals to understand semiconductor devices. 2. Students will be able to understand the behavior of semiconductor devices such as intrinsic semiconductor, extrinsic semiconductor, MOS transistors, CMOS circuits and semiconductor photodevices. 3. Students will be able to understand relations among physics, chemical, logic circuits and computer systems. 4. Students will be able to obtain basis knowledge of semiconductor devices for software and hardware engineering. |
| 授業スケジュール /Class schedule |
(1) Introduction and progress of LSI (2) SI units, periodic table, properties of chemical bond and material, orbit, and band structure (3) Fermi level and intrinsic semiconductor (4) Extrinsic semiconductor and carrier (5) Pn junction and depletion layer, diffusion potential and rectification element (6) Contact with metal and the semiconductor, and MOS structure (7) Midterm exam (8) MOS transistors (9) CMOS basic circuits (10) CMOS logic circuits (11) Memory circuits (12) VLSI technology and process technology (13) Semiconductor photodevices, light receiving technology and light emitting technology (14) Recent LSI research topics (15) Summary |
| 教科書 /Textbook(s) |
古川静二郎、荻田陽一郎、浅野種正「電子デバイス工学[第2版]」森北出版 |
| 成績評価の方法・基準 /Grading method/criteria |
The plan of evaluation is as follows: Quizzes 30% Midterm exam 30% Final exam 40% Additionally, the behavior in the lecture is also evaluated. |
| 履修上の留意点 /Note for course registration |
Prerequisite: none Courses whose knowledge is required as basic: Dynamics, Electromagnetism and CSE laboratories Courses whose prerequisite is this course: Electronics and VLSI Design Related courses: CSE laboratories, Logic Circuit Design, Introduction to Optoelectronics and Discrete Systems |
| 参考(授業ホームページ、図書など) /Reference (course website, literature, etc.) |
Each instructor prepare course website. |
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| 開講学期 /Semester |
2017年度/Academic Year 1学期 /First Quarter |
|---|---|
| 対象学年 /Course for; |
2nd year |
| 単位数 /Credits |
2.0 |
| 責任者 /Coordinator |
Yoshiko Ogawa |
| 担当教員名 /Instructor |
Yoshiko Ogawa |
| 推奨トラック /Recommended track |
- |
| 履修規程上の先修条件 /Prerequisites |
NS1 or NS2 |
| 更新日/Last updated on | 2017/01/31 |
|---|---|
| 授業の概要 /Course outline |
The course deals with thermodynamics and statistical thermodynamics. The special focus is placed on entropy. The aim of this course is to help students acquire an understanding of the macro- and micro- physics. |
| 授業の目的と到達目標 /Objectives and attainment goals |
The goals of this course are to: 1. Obtain basic knowledge about thermodynamics 2. Understand the statistical thermodynamics 3. Comprehend the relationship between macro- and micro physics |
| 授業スケジュール /Class schedule |
1. Introduction: Overview of the course, First law of thermodynamics 2. Second law of thermodynamics, Carnot principle 3. Entropy (I): What is entropy? 4. Entropy (II): The law of increasing entropy 5. Thermal equilibrium (I): Absolute temperature 6. Thermal equilibrium (II): Free energy 7. Microstate (I): Boltzmann's entropy formula 8. Midterm exam and commentary after exam 9. Microstate (II): Density of states 10. Boltzmann factor, Law of equipartition of energy 11. Entropy of mixing (I): Partition Function 12. Entropy of mixing (II): Case for ideal gases 13. Dilute solution (I): Henry's law 14. Dilute solution (II): Freezing point depression 15. Final exam and commentary after exam |
| 教科書 /Textbook(s) |
Will be introduced in the class (Japanese textbooks) |
| 成績評価の方法・基準 /Grading method/criteria |
Your final grade will be calculated according to the following process: Mid-term Examination (40%), term-end Examination (60%), and a fraction of short reports. |
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| 開講学期 /Semester |
2017年度/Academic Year 4学期 /Fourth Quarter |
|---|---|
| 対象学年 /Course for; |
2nd year |
| 単位数 /Credits |
2.0 |
| 責任者 /Coordinator |
Irina I. Khmyrova |
| 担当教員名 /Instructor |
Irina I. Khmyrova |
| 推奨トラック /Recommended track |
- |
| 履修規程上の先修条件 /Prerequisites |
NS1 or NS2 |
| 更新日/Last updated on | 2017/02/06 |
|---|---|
| 授業の概要 /Course outline |
The course will provide the fundamental knowledge of optics as a basis for the optical communications. |
| 授業の目的と到達目標 /Objectives and attainment goals |
In the course basic optical phenomena will be studied. Understanding of these phenomena is necessary for further study of optical communication systems. |
| 授業スケジュール /Class schedule |
1. Introduction. The nature of light. Waves and rays Total internal reflection. Reflection and refraction. Dispersion. Scattering of light. Huygens' principle 2. Geometric optics Reflection and refraction at a plane surface. Reflection at a spherical surface. Graphical methods for mirrors. Refraction at a spherical surface. Thin lenses. Graphical methods for lenses. 3. Polarization of light Polarizers Quarter- and half-wave plates 4. Interference Interference and coherent sources. Two-source interference of light. Intensity in interference patterns. Interference in thin films. The Michelson interferometer. 5. Diffraction Fresnel and Fraunhofer diffrection. Diffraction from a single slit. Intensity in the single-slit pattern. Multiple slits. The diffraction grating 6. Fibre optics Guided waves. The slab dielectric guide Numerical aperture. Materials for optical fibres. Dispersion in optical fibres |
| 教科書 /Textbook(s) |
TBA |
| 成績評価の方法・基準 /Grading method/criteria |
Mid-term examination (40%), end-term examination (40%), 2 Quizes (10%), others (10%) |
| 履修上の留意点 /Note for course registration |
NS1 力学 または NS2 電磁気学 Formal prerequisites:NS1 Dynamics or NS2 Electromagnetism |