Seminars
Seminars
Past Events
- First Data from the FASER ecperiment at the LHC Run3 (Shih-Chieh Hsu, University of Washington) -
- Engineering atomic and solid-state quantum sensors for magnetometry and inertial sensing (Jennifer Choy, University of Wisconsin at Madison) -
- Constraining parameters of initial condition in isobar collisions (Seyed Farid Taghavi, Technical University of Munich) -
- Impact of small-x evolution of nuclear deformations and application to isobar collisions (Pragya Singh, University of Jyvuäskylä) -
- Relativistic energy-density functional (Jie Meng, Peking University) -
- Neutron skin sensitivity of weak probes in isobar collisions (Weiyao Ke, Los Alamos National Laboratory) -
- Deformation of A=96 isobars (Tomas Rodriguez, Universidad Complutense de Madrid) -
- The Future of Gravitational Wave Astronomy (Joey Key, UW Bothell) -
- Nuclear deformation and shape coexistence around 96Zr and 96Ru (Magda Zielińska, CEA Saclay) -
- Isobar collisions as precision nuclear structure probes (Jiangyong Jia, Stony Brook University) -
- Interplay of neutron skin and EOS (Pawel D. Danielewicz, Michigan State University) -
- Isobar run: Motivation and Outcome (Fuqiang Wang, Purdue University) -
- TBA (Matthew Luzum, University of São Paulo) -
- Nuclear deformations across the nuclide chart (Anatoli Afanasjev, Mississippi State University) -
- What can we learn with tau leptons at the LHC? (Quentin Buat, University of Washington) -
- Dense matter from nuclear reactions in astro- and heavy-ion physics (Shunji Nishimura, RIKEN) -
- Data-driven initial conditions for heavy-ion collisions (Govert Nijs, Massachusetts Institute of Technology) -
- Demonstration of algorithmic quantum speedup (Daniel Lidar, University of Southern California) -
- Bayesian analyses of heavy-ion collisions: status and prospects (Jean-Francois Paquet, Vanderbilt University) -
- State-of-the-art calculations for large nuclei (Benjamin Bally, CEA Paris-Saclay) -
- Overview of nuclear deformation in low-energy experiments (Kathrin Wimmer, GSI Helmholtz Centre for Heavy Ion Research) -
- Azimuthal anisotropy in heavy-ion collisions (Jean-Yves Ollitrault, Paris-Saclay University) -
- Nuclear deformation: origin and properties (Witold Nazarewicz, Michigan State University) -
- Nuclear structure for high-energy nuclear physics (Giuliano Giacalone, Universität Heidelberg) -
- Probing the Life-time Frontier (Henry Lubatti, University of Washington) -
- S@INT Seminar: "Radiative corrections in neutrino physics" (Oleksandr Tomalak - Los Alamos National Laboratory) -
- Quantum simulation of lattice gauge theories with ultracold atoms (Federica Surace, Caltech) -
- Effective field theory for fluids with kinematic constraints (Andrew Lucas, CU Boulder) -
- QiS in Physics: Photonic coupled cavity array for quantum simulation (Arka Majumdar, University of Washington) -
- S@INT Seminar: "The 3D structure of jet-induced Mach cone in high-energy heavy-ion collisions" (Xin-Nian Wang - Lawrence Berkeley National Laboratory) -
- Entanglement Witnessing for Lattice Gauge Theories (Veronica Panizza, Ricardo Costa de Almeida, Univ. of Trento) -
- Learning About the Doped Hubbard Model on a Honeycomb Lattice (Evan Berkowitz - Forschungszentrum Jülich) -
- Topological aspects of non-Hermitian skin effects (Masatoshi Sato, Kyoto University) -
- Newborn super star clusters at Cosmic Noon seen through gravitational lensing (Liang Dai, UC Berkeley ) -
- QIS in Physics: TBA (Martin Savage, University of Washington) -
- QIS in Physics: Toward Quantum Simulations of Standard Model Physics (Martin Savage, UW Physics) -
- Peeking inside the nucleus using beta and gamma decay and the GRIFFIN spectrometer at TRIUMF (Corina Andreoiu, Department of Chemistry, Simon Fraser University, Burnaby, BC, Canada) -
- S@INT Seminar: "CUPID, CUPID-1T, and the future of neutrinoless double beta decay" (Erin Hansen - University of California, Berkeley) -
- Generalized hydrodynamics, local prethermalization, and hydrodynamization in ultracold 1D gases (Marcos Rigol, Penn State) -
- QCD at nonzero density: the sign problem, PT symmetry and exotic phases (Michael Ogilvie, Washington University in St. Louis) -
- Entanglement Suppression -- from Nucleons to Black Holes (Ian Low, Northwestern University / Joint with Argonne National Laboratory) -
- S@INT Seminar: "Diquark-induced Short-Range Correlations and Hidden-Color Singlets in Nuclear Wavefunctions" (Jennifer Rittenhouse West - Lawrence Berkeley National Lab) -
- Final Exam: Mathematical methods for enhanced spatial resolution of magnetoencephalography forward and inverse modeling (Wanjin Yeo (Advisors: Jose Kutz and Samu Taulu), University of Washington) -
- Parton distributions and quantum entanglement (Dmitri Kharzeev, Stony Brook University/Brookhaven National Laboratory) -
- The Universe, Seen in the (Far-)Far-Infrared (Joaquin Vieira, UIUC) -
- QIS in Physics: Momentum Space Quantum Simulation: Many-body Dynamics of a Kicked Quantum Gas (Subhadeep Gupta, University of Washington) -
- QIS in Physics: TBA (Subhadeep Gupta, University of Washington) -
- Holographic BCFT Spectra from Brane Mergers (Sanjit Shashi, UT Austin) -
- TBA (Sanjit Shashi, UT Austin) -
- Analytic continuation of the three-body amplitudes (Sebastian Dawid, University of Washington) -