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Course title |
Quantum Technology Based on Atomic, Molecular, and Optical Systems |
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Semester |
114-1 |
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Designated for |
COLLEGE OF SCIENCE GRADUATE INSTITUTE OF PHYSICS |
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Instructor |
SHANG-FAN LEE |
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Curriculum Number |
Phys8163 |
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Curriculum Identity Number |
222ED5580 |
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Class |
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Credits |
3.0 |
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Full/Half
Yr. |
Half |
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Required/
Elective |
Elective |
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Time |
Tuesday 6,7,8(13:20~16:20) |
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Remarks |
The upper limit of the number of students: 20. |
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Course introduction video |
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Table of Core Capabilities and Curriculum Planning |
Table of Core Capabilities and Curriculum Planning |
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Course Syllabus
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Please respect the intellectual property rights of others and do not copy any of the course information without permission
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Course Description |
This course offers a broad overview of the four main pillars of quantum technology: quantum sensing and metrology, quantum communication, quantum simulation, and quantum computing. Students will gain a broad understanding of each area, with lectures delivered by experts in the field.
(上課地點Classroom: IAMS Bldg., R209, NTU) |
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Course Objective |
By the end of this course, students will be able to explain the fundamental physical principles behind AMO systems based modern quantum technologies and demonstrate foundational knowledge necessary for advanced study or research in the field. |
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Course Requirement |
Prerequisites: Quantum Mechanism and Electromagnetism. |
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Student Workload (Expected weekly study hours before and/or after class) |
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Office Hours |
Appointment required. Note: By appointment. |
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Designated reading |
待補 |
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References |
Lecture notes and the references cited within. |
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Grading |
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No. |
Item |
% |
Explanations for the conditions |
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1. |
Assessment will be based on homework assignments, exams, and reports. |
100% |
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Week |
Date |
Topic |
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Week 1 |
9/02 |
Introduction to quantum technology (MS Chang, IAMS) |
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Week 2 |
9/09 |
Atomic physics, laser cooling, and atom trapping (HH Jen, IAMS) |
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Week 3 |
9/16 |
Quantum cryptography and quantum key distribution (CS Chuu, NTHU) |
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Week 4 |
9/23 |
Quantum repeater, quantum network (SY Lan, NTU) |
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Week 5 |
9/30 |
Quantum interface (S Bennetts, IAMS) |
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Week 6 |
10/07 |
Special topics (TBA) |
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Week 7 |
10/14 |
Neutral atom QC (YC Chen, IAMS) |
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Week 8 |
10/21 |
Trapped ion QC (MS Chang, IAMS) |
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Week 9 |
10/28 |
Photon based QC (Yen-Hung Chen, NCU) |
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Week 10 |
11/04 |
Quantum Machine Learning (Ray-Kuang Lee, NTHU) |
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Week 11 |
11/11 |
Quantum-gas based quantum simulation (YJ Lin, IAMS) |
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Week 12 |
11/18 |
Special topics (TBA) |
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Week 13 |
11/25 |
Atomic clock (CC Chen, IAMS) |
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Week 14 |
12/02 |
Inertial sensing and precision measurement (SY Lan, NTU) |
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Week 15 |
12/09 |
Nano-sensing (MS Chang, IAMS) |
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Week 16 |
12/16 |
Final exam week (final exam / student presentation) |
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