CM-AMO Seminar | Symmetries in Open Quantum Systems: Autonomous Error Correction and Quantum Metrology
Jeremy Young, Veni Postdoctoral Fellow (University of Amsterdam)
Hybrid Lecture: Join us on Zoom if you can't come in person:
https://umich.zoom.us/j/7650373624
Quantum systems are fundamental to developing new technologies and studying fundamental science. However, current systems cannot be fully isolated from the environment, which can introduce detrimental noise effects that destroy useful quantum features in these open quantum systems. Nevertheless, in some circumstances it is possible to instead utilize the environment as a resource via symmetries. Although the implications of symmetries in Hamiltonian systems are well-understood, in open quantum systems the situation is more complex. In this talk, I will show how two classes of symmetry exist for open quantum systems, “weak” and “strong”, and I will demonstrate the utility of strong symmetries via two examples. First, I will identify connections between steady state phase transitions and autonomous error correction, a form of quantum error correction in which active measurement and feedback is no longer needed. Second, I will show how strong symmetries allow for the preparation of highly-entangled collective states known as spin-squeezed states, which can be experimentally realized in optical cavity systems for quantum-enhanced metrology.
Quantum systems are fundamental to developing new technologies and studying fundamental science. However, current systems cannot be fully isolated from the environment, which can introduce detrimental noise effects that destroy useful quantum features in these open quantum systems. Nevertheless, in some circumstances it is possible to instead utilize the environment as a resource via symmetries. Although the implications of symmetries in Hamiltonian systems are well-understood, in open quantum systems the situation is more complex. In this talk, I will show how two classes of symmetry exist for open quantum systems, “weak” and “strong”, and I will demonstrate the utility of strong symmetries via two examples. First, I will identify connections between steady state phase transitions and autonomous error correction, a form of quantum error correction in which active measurement and feedback is no longer needed. Second, I will show how strong symmetries allow for the preparation of highly-entangled collective states known as spin-squeezed states, which can be experimentally realized in optical cavity systems for quantum-enhanced metrology.
| Building: | West Hall |
|---|---|
| Event Type: | Workshop / Seminar |
| Tags: | Faculty, Physics |
| Source: | Happening @ Michigan from CM-AMO Seminars, Department of Physics |
Events
Featured
Mar
15
Saturday Morning Physics | Good Vibrations: The Science of Vibrations, Sound and Hearing
Family-friendly science demos and hands-on activities
10:30 AM
170 & 182 Hallway Area
Weiser Hall
Upcoming
Mar
17
HEP-Astro Seminar | PROSPECT-I final oscillation results and PROSPECT-II physics goals and detector design
Ohana Benevides Rodrigues (Illinois Institute of Technology)
3:00 PM
340
West Hall
Mar
19
HET Seminar | Search for dark photons with synchronized quantum sensor network
Yue Zhao (Utah)
12:00 PM
3481
Randall Laboratory
Mar
20
The Department of Astronomy 2024-2025 Colloquium Series Presents:
Dr. Joe Hennawi, Associate Professor, UCSB
3:30 PM
411
West Hall
