Course title
量子光学   [Quantum Optics]
Course category courses for master's programs  Requirement   Credit 2 
Department   Year   Semester 3rd 
Course type 3rd  Course code 1060403
Instructor(s)
室尾 和之   [MUROO Kazuyuki]
Facility affiliation Faculty of Engineering Office afjgxte/L1151  Email address

Course description
Interaction between light and matters is one of the most basic and important issues, in the region of the phenomena, emission and absorption of light and nonlinear optical processes, and is fundamental in the region of optical science, such as spectroscopy, optical property and laser physics. Based on the lectures, "Wave physics", "Electrodynamics I, II", and "Quantum mechanics I, II ...", this lecture expand the classical treatment of the "light" to the quantum-mechanical treatment.
Classcode: t3znk2i
Expected Learning
The aim of this course is to understand interaction between light and matters, based on the classical oscillator model, semi-classical model and full quantum theory and to explain physically these optical concepts.
Corresponding criteria in the Diploma Policy: See the Curriculum maps.
Course schedule
Week 1: Introduction to quantum optics
Week 2: Emission of light, Einstein model, A and B coefficients
Week 3: Electric dipole radiation and mechanical oscillator model of electric dipole (Lorentz model)
Forced oscillation, electric dipole moment and polarization, complex electric susceptibility
Week 4: Propagation of electromagnetic wave
complex susceptibility and refraction and extinction coefficient, absorption and dispersion, energy transportation between electromagnetic wave and electric dipole
Week 5: Coherent excitation of electric dipoles by electromagnetic wave
Week 6: Semi-classical theory of interaction between light and materials
time-dependent perturbation and its successive approximation solution, exact solution
Week 7: Absorption and emission of light
expectation value of electric polarization, Rabi-oscillation and introduction of damping
Week 8: Full quantum theory of interaction between light and matters
transition from semi-classical theory to full quantum theory
Week 9: Vector potential and Coulomb gauge
Vector potential and Coulomb gauge of electromagnetic wave
Week 10: Mode of wave and associated harmonic oscillator
Wave and Fourier transformation, mode, harmonic oscillator
Week 11: Quantization of harmonic oscillation
Quantization based on linear algebra of harmonic oscillator
Week 12: Algebraic properties of creation, destruction and number operators
Quantization of harmonic oscillator, energy eigenvalue and Shrodinger equation
Week 13: Quantized electromagnetic wave associated with quantized harmonic oscillator
Week 14: Property of quantized electromagnetic wave: photon
Week 15: Full quantum theory of interaction between light and matters
Rigorous derivation of Einstein A and B coefficient based on full quantum theory, non-classical photon states
Prerequisites
Electromagnetism, Quantum electronics, Photonics, Oscillation and wave
Preparation and review of related topics
Students are recommended to prepare for and revise the lecture, spending the standard amount of time as specified by the University and using the lecture handouts as well as the references specified below.
Required Text(s) and Materials
Not specified.
References
R. Loudon, The Quantum Theory of Light, Clarendon Press. A. Corney, Atomic and Laser Spectroscopy, Clarendon Press. J.N.Dodd, Atoms and Light Interaction, Plenum Press.
霜田光一,レーザー物理入門,岩波書店
山本学, プラズマの分光計測,学会出版センター
Assessment/Grading
5-time reports and final reports (80) and daily achievements (20%).
Message from instructor(s)
Interaction between light and matters, classical oscillator model, Lorentz model, semi-classical model, Full quantum theory, second quantization, creation and destruction operators
Course keywords
Office hours
Mon. 12:00-13:00 (Email: muroo@cc.tuat.ac.jp)
Remarks 1
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
Last update
10/4/2021 9:56:48 AM