Precision Measurements with 31P Nuclear Spins in Isotopically Enriched 28Si
The quantum sign problem: perspectives from computational physics and quantum computer science
Dominik Hangleiter, FreieUniversität Berlin
Computability and compression of nonlocal games
Sajjad Nezhadi, University of Maryland - College Park
Efficient quantum algorithm for dissipative nonlinear differential equations
Jin-Peng Liu, University of Maryland - College Park
Schur-Weyl duality and symmetric problems with quantum input
Laura Mancinska, University of Copenhagen
Fault-tolerant error correction using flags and error weight parities
Theerapat Tansuwannont, Institute for Quantum Computing
Fermion Sampling: A robust quantum advantage scheme using fermionic linear optics and magic input states
Michal Oszmaniec, Center for Theoretical Physics PAS
An optomechanical cavendish experiment
A spinor Bose-Einstein condensate (BEC) is highly controllable especially when combining with optical lattices. Lattice-confined spinor BEC is an ideal candidate for studying many non-equilibrium quantum dynamics since it can be easily prepared far from equilibrium. I will present the results of our experimental studies on non-equilibrium quantum spin dynamics in our spinor BEC (23Na) confined by 3D cubic optical lattices.
Join Luca Dellantonio, a postdoctoral fellow at the University of Waterloo’s Institute for Quantum Computing (IQC), in conversation with scientific outreach manager John Donohue. They’ll discuss his latest journal article entitled A measurement-based variational quantum eigensolver published in Physical Review Letters on June 4.