Quantum simulation and computation with near term quantum processors
by
Prof.Dimitris Angelakis
→
Europe/Athens
Description
I will start with a general introduction on quantum simulation and computation with near term processors, the state of the art and the current race for building operational quantum processors. I will then review our work with Google on quantum simulations with superconducting qubits[1]. If time, I will briefly summarize recent works in the area of analog quantum supremacy and quantum phase transitions[2], quantum machine learning[3] and qubit efficient quadratic optimization algorithms on near term quantum processors [4]. The first part of the talk should be accessible to non-specialists
[1]Spectral signatures of many-body localization with interacting photons
[2] Quantum supremacy and quantum phase transitions J. Tangpanitanon, S. Thanasilp, M. A. Lemonde, N. Dangiam, D. G. Angelakis Phys. Rev. B 103, 165132 (2021)
[3] Expressibility and trainability of parameterized analog quantum systems for machine learning applications J. Tangpanitanon, S. Thanasilp, M. A. Lemonde, N. Dangiam, D. G. Angelakis Phys. Rev. Research 2, 043364
[4] Qubit efficient algorithms for binary optimization problems
B. Tan, M. A. Lemonde, S. Thanasilp, J. Tangpanitanon, D. G. Angelakis