Snowmass Community Planning Meeting - Virtual

Session

124. Lattice Gauge Theory for High Energy Physics

Z11-124

6 Oct 2020, 13:00

Virtual

Conveners

124. Lattice Gauge Theory for High Energy Physics

• Michael Schmitt (Northwestern University)
• Stefan Meinel (University of Arizona)
• Zohreh Davoudi (University of Maryland)
• Huey-Wen Lin (MSU)
• Peter Boyle (Brookhaven National Laboratory)
• Ethan Neil (University of Colorado, Boulder)
• Tanmoy Bhattacharya (Los Alamos National Laboratory)
• Baha Balantekin (University of Wisconsin)
• Taku Izubuchi (Brookhaven National Laboratory)
• Thomas Blum (University of Connecticut)

Contribution list Timetable

263. Introduction to the session

Zohreh Davoudi (University of Maryland)

06/10/2020, 13:00

255. Hadron structure and spectroscopy brief

Huey-Wen Lin (MSU)

06/10/2020, 13:03

256. Light and heavy flavor physics brief

Stefan Meinel (University of Arizona)

06/10/2020, 13:10

257. Fundamental Symmetries brief

Tanmoy Bhattacharya (Los Alamos National Laboratory)

06/10/2020, 13:17

258. v-Nucleus scattering brief

Michael Wagman (Fermilab)

06/10/2020, 13:23

259. BSM with LGT brief

Ethan Neil (University of Colorado, Boulder)

06/10/2020, 13:29

260. Computation and algorithm brief

Peter Boyle (Brookhaven National Laboratory)

06/10/2020, 13:34

261. Hamiltonian simulation and sign problem

Zohreh Davoudi (University of Maryland)

06/10/2020, 13:40

262. Panel discussion

Andreas Kronfeld (Fermilab), Anna Hasenfratz (university of colorado boulder), Carleton DeTar (University of Utah), Chulwoo Jung (Brookhaven National Laboratory), Norman Christ (Columbia University), Rajan Gupta (Los Alamos National Lab), Ruth Van de Water (Fermilab), Sasa Prelovsek (University of Ljubljana), Taku Izubuchi (Brookhaven National Laboratory)

06/10/2020, 13:45

Discussions will be organized around the following questions:

1) What areas of the LGT program in general, and the topic you are representing in particular, require a comprehensive study to be conducted as part of the Snowmass process in order to quantify the impact of the LGT results on improving phenomenological constraints and the overall experimental programs. i.e., are there areas for...