Speaker: Prof. Giulia Galli
University of Chicago & Argonne National Laboratory
Absract:
We discuss theoretical and computational strategies to predict materials with desired characteristics for quantum sensing and quantum computations, on classical computers. We then discuss the impact that quantum simulations on quantum computers and hybrid architectures may have in revolutionizing materials design and innovation.
Speaker: Prof. Steven Hill
Department of Physics and National High Field Laboratory, Florida State University
Absract:
Electron and nuclear spins in molecules possess discrete energy levels, and the associated quantum states can be tuned and coherently manipulated by means of external electromagnetic fields.
Speaker: Prof. Ronald Walsworth
University of Maryland
Absract:
Optically probed quantum defects in solids such as diamond and silicon carbide have become a leading modality for precision sensing and imaging of electromagnetic fields, temperature, and forces.
Speaker: Dr. Luke J. Bissell
Materials and Manufacturing Directorate, Air Force Research Laboratory
Absract:
The field of Quantum Information Science (QIS) is revolutionizing technologies that reange from timing, sensing, networks, to communications, with critical relevance to the Department of Air Force and the Department of Defense.
