Because of their great potential as the most secure communication system and their promising
scalability in quantum computing, quantum information networks emerged and have been an
important field in physics research in recent 15 years. Building practical quantum network calls for
long coherence time and feasibly scale-up physical systems. In recent 10 years, point defects with
individual controllable spins come into the focus due to their scalability, ability of interacting with
photons, and long coherence times. One most promising system is nitrogen vacancy centers in
diamond. In this talk, we will start by introducing the hybrid quantum nodes composed of an electron
spin and several nuclear spins around, the ways to operate them and their coherence properties. We
will discuss how to build the practical quantum information networks based on coherent absorption.
Speaker
Sen Yang
Title
Assistant Professor
Affiliation
香港中文大学
Time
2019-03-01 (Fri) 10:00
Location
理化大楼一楼科技展厅(上海研究院4号楼329报告厅同步视频)
Abstract