Enrique Rico Ortega and Sofia Vallecorsa explain how quantum computing will allow physicists to model complex dynamics, from ...

Optical quantum clocks developed at the University of Adelaide have been proven to outperform GPS navigation systems by many ...

These so-called quantum simulation experiments are particularly useful because they can exactly simulate the dynamics of, for example, condensed matter systems where numerical or theoretical methods ...

Powered by continuing advances in magnetometry, gravimetry, optical lattice timekeeping, inertial sensing, electrometry, quantum-enhanced electro-microscopy and the emerging field of atomtronics ...

Applications to quantum simulation, especially for lattice gauge theories and many-body dynamics, become possible with such extended control. Optical tweezers as a quantum control platform are ...

“We report an accurate and efficient classical simulation of a kicked Ising quantum system on the heavy hexagon lattice. A simulation of this system was recently performed on a 127-qubit quantum ...

The work simulated the behavior of a suite of lattice structures and sizes across a variety of evolution times and delivered a multiplicity of important material properties. D-Wave’s quantum computer ...

Optical Lattice Clocks. Physics. From Timekeepers to Spies of the Quantum Realm. Friday, March 8, 2024 4-5 p.m. Location: McConnell Hall 103. Dr. Ana Marie Rey, University of Colorado professor of ...

Quantum Computing. Prof. Kostas Orginos -- theory Lattice QCD, computational physics. Prof. George Vahala -- theory Quantum computing algorithms, plasma physics, fluid dynamics (classical and quantum) ...