Course title
ナノ量子材料工学   [Nanoscale Quantum Devices]
Course category technology speciality courses  Requirement   Credit 2 
Department   Year 34  Semester 1st 
Course type 1st  Course code 023469
Instructor(s)
室尾 和之   [MUROO Kazuyuki]
Facility affiliation Faculty of Engineering Office   Email address

Course description
Quantum mechanics are widely applied to electronics and material engineering, where the specific features of quantum mechanics are essential.
In order to understand such a quantum-mechanical features, the lecture provides, in addition to the quantum theory for steady states, approximation theory and time-dependent treatment of non-stationary states. Application of such quantum-mechanical features, for example, quantum dots, quantum communication, and quantum computing, are also provided.
classcode: 35diyif
Expected Learning
Students are expected to understand the basic concepts of quantum mechanics as linear theory, superposed states, meaning of measurements, which are applied to approximation theory of steady states and time-dependent Schrodinger equation.
Students are also expected to understand the application of these concepts to quantum devices.
Corresponding criteria in the Diploma Policy: See the Curriculum maps.
Course schedule
Week 1: Electronic devices and quantum devices
Week 2: Steady-state quantum mechanics
Week 3: Electron in a quantum well
Week 4: Quantum theory as linear theory
Week 5: Eigen equations, eigen values, and eigen states
Week 6: Linearly superposed states and measurements (Schrodinger's cat)
Week 7: Approximation theory in quantum mechanics of steady states
Week 8: Perturbation theory
Week 9: Time-dependent quantum systems and time-evolution of states (unitary evolution)
Week 10: Time-dependent perturbation theory and Fermi's golden rule
Week 11: Quantum devices
Week 12: Quantum devices 2: Nano-scale artificial structure
Week 13: Quantum communication
@eek 14: Quantum computing
Week 15: Q & A, performance check
Prerequisites
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
No specified textbooks.
References
A. Hatakeyama, Quantum Mechanics (in Japanese)
Assessment/Grading
Final examinations 50%, exercises (including homework) 50%.
Message from instructor(s)
Course keywords
Quantum mechanics, linear theory, superposed states, measurements, perturbation theory, time-dependent Schrodinger equation, quantum dots, quantum communication. quantum computing
Office hours
On demand
Remarks 1
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
Last update
3/3/2022 2:15:02 PM