讲座题目:Quantum Microprocessor for Simulations
讲座时间:2024年5月19日 9:15-9:45
讲座地点:江湾校区 交叉二号楼 E1006报告厅
主讲人介绍:Professor Ai-Qun Liu (A. Q. Liu) received his PhD degree from National University of Singapore (NUS) and is a Professor in the School of Electrical and Electronic Engineering at Nanyang Technological University (NTU) in 2010. He was a Funding Director at the Quantum Science and Engineering (QSec) in 2015. Currently, he is a STEM chair professor of The Hong Kong Polytechnic University and director of Institute of Quantum Technology (IQT). His research interests include quantum computers and quantum communication, microphotonic device and fabrication. He has published over 400 peer-reviewed research papers, trained more than 50 PhD students and also received multiple prestigious awards and honors including Singapore Prestigious Engineering Achievement Award. He was elevated to a Fellow of Singapore Engineering Academic, and also SPIE Fellow, OSA Fellow and RCS Fellow.
内容摘要:Quantum computers promise to deliver enormous computational power and solve problems that cannot be tackled by ordinary (classical) machines. There are many hardware platforms on which quantum computing can be developed, and it is not yet clear which technology, or combination of technologies, will prove most successful. Today I will give an overview of quantum photonic microprocessors. In the computing architecture used to implement this quantum sampling algorithm, squeezed states of light are generated and launched into an optical network consisting of several optical paths and beam splitters. The squeezed states mix together when they meet in beam splitters because of a quantum effect called interference. As a result, all the states come out completely scrambled, in a way that depends on the relative lengths of the optical paths, known as their relative phases. Reprogramming these phases alters the type of scrambling. After scrambling, the number of photons in each output of this quantum circuit is counted using highly sensitive detectors. The quantum computer is implemented their photonic circuit on a silicon chip technology that is compatible with the fabrication processes used by the semiconductor industry.