Introduction to quantum computation
This course introduces the foundational principles of quantum algorithms and quantum error correction. Basic algorithmic frameworks will be explored, including Grover's algorithm, quantum phase estimation, Hamiltonian simulation, and block encoding techniques. Additionally, the course will address fundamental concepts for quantum error correction.
Lecturer
Date
26th March ~ 11th June, 2025
Location
| Weekday | Time | Venue | Online | ID | Password |
|---|---|---|---|---|---|
| Wednesday | 15:20 - 17:50 | A3-1-301 | ZOOM 14 | 712 322 9571 | BIMSA |
| Wednesday | 19:20 - 20:05 | A3-1-301 | ZOOM 14 | 712 322 9571 | BIMSA |
Prerequisite
linear algebra, quantum mechanics
Reference
1. Lecture notes on quantum algorithms for scientific computation, Lin Lin
2. John Preskill's lecture notes on quantum computation
3. Quantum computation and quantum information, Michael A Nielsen and Issac L. Chuang
2. John Preskill's lecture notes on quantum computation
3. Quantum computation and quantum information, Michael A Nielsen and Issac L. Chuang
Audience
Undergraduate
, Advanced Undergraduate
Video Public
No
Notes Public
No
Language
Chinese
Lecturer Intro
Hao Dai received her Ph.D. from the Chinese Academy of Sciences in 2020. Following that, from 2020 to 2023, she worked as a postdoctoral fellow at Tsinghua University. In 2023, she has become an Assistant Professor at BIMSA. Her primary research interests encompass the domains of quantum information and computation.