The IQuS Team
Silas R. Beane
Professor of Physics
543-3256 , B457 , silas@ , web page
Entanglement in Field Theory
Lattice Gauge Theory
Effective Field Theory
Stephan Caspar
FermiLab Quantised Postdoctoral Fellow
685-9723, B468 , caspar@ ,
Bose-Einstein condensation
Chern-Simons-Yang-Mills lattice models
David B. Kaplan
Senior Fellow in the INT and Professor of Physics
685-3546 , B455 , dbkaplan@ , web page
Entanglement and Symmetries
Lattice gauge field theory for classical computing and quantum devices
Kenneth Roche
Affiliate Associate Professor
Staff Scientist @ PNNL
206-616-9906, k8r@
High Performance Computing
Quantum Monte Carlo
Fundamentals of Computing
Quantum many-body simulations
Alessandro Roggero
IQuS Research Assistant Professor
685-3348 , C404 , roggero@
Quantum Computing and Algorithms
Quantum Simulation of inelastic nuclear processes
Quantum Monte Carlo
Effective Field Theory
Martin J. Savage
Professor of Physics
543-7481, C408 , mjs5@ , web page
Simulations of Lattice field theories with quantum devices
Lattice Gauge Theory
Effective Field Theory
Entanglement
Hersh Singh
FermiLab Quantised Postdoctoral Fellow
Spin Systems
Quantum Algorithms
Quantum Computing
Nathan Wiebe
Visiting Scientist at the INT
B472
Quantum Algorithms
Quantum Computing
Ramya Bhaskar
PhD Student
rbhaskar@
Simulation of Quantum Spin Systems and Field Theories
Anthony Ciavarella
PhD Student
B466 , aciavare@
Simulation of Field Theories
Peter Ehlers
PhD Student
ehlersp@
Entanglement in QFT
Roland Farrell
PhD Student
rolanf2@
Entanglement in QFT
Abhishek Rajput
PhD Student
rajpua@uw.edu@
Quantum Simulation of field theories
Alumni
Natalie Klco
California Institute of Technology
Sherman Fairchild Postdoctoral Scholar Research Associate in Theoretical Physics
Recent PhD Student (PhD 2020)
klcon@
Simulation of Quantum Systems and Field Theories
Toward QCD and Nuclear Forces with Quantum Computing
Entanglement and sensing
Jesse Stryker
University of Maryland
Postdoctoral Fellow
Recent PhD Student (PhD 2020)
stryker@
Quantum Systems and Field Theories
Toward QCD and Nuclear Forces with Quantum Computing