Seminars
Seminars
Upcoming Events
Patrick Rall, IBM Quantum
PAT C-421
Amalia Madden – KITP, UC Santa Barbara
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PAT C421
Joshua Labounty, University of Washington
PAT C-421
Past Events
- State preparation in quantum simulations of lattice gauge theories (Chris Kane, University of Arizona) -
- Progress in calculating multiparticle amplitudes from lattice QCD (Stephen Sharpe, University of Washington) -
- Identifying the Various Forms of Capital Utilized by Physics Graduate Students in Bridge Programs (Dr. Geraldine L. Cochran, Ohio State University) -
- Circuit complexity and functionality: a thermodynamic perspective (Claudio Chamon, Boston University) -
- The Good, The Bad, and the Ugly: A Tale of Physics, Software, and ML (Alexandra Golub and Gordon Watts, University of Washington) -
- A loophole in the proofs of quantum triviality and asymptotic freedom (Paul Romatschke, University of Colorado Boulder) -
- Scalable Circuits for Preparing Ground States on Digital Quantum Computers: The Schwinger Model Vacuum on 100 Qubits (Marc Illa, IQuS) -
- S@INT Seminar: "Prospects for Discovery In the Dynamics of Heavy Nuclei and Nuclear Data" (Kyle Godbey - Facility for Rare Isotope Beams) -
- From qubits to qutrits: entanglement of astrophysical neutrinos (A.B. Balantekin) -
- Ravioli and Holomorphic-Topological QFT (Niklas Garner, University of Washington) -
- Patchy Dark Screening (Junwu Huang, Perimeter Institute) -
- Axion-like Particle At Higgs Factories and at Super-K (Kingman Cheung, National Tsing Hua University) -
- S@INT Seminar: "Femtoscopic correlations in Equation of State studies" (Maria Stefaniak - Ohio State University) -
- Spin waves meet superconductivity (Nick Poniatowski, Harvard University) -
- Neutrino and anti-neutrino cross sections on 18O and 40Ar within QRPA nuclear models (Arturo Rodolfo Samana, Universidade Estadual de Santa Cruz) -
- Improving Calculations of Beta Decay Rates for r-Process Simulations (Jonathan H. Engel, University of North Carolina) -
- Multi-messenger Signal Prediction from 3D MHD Core-Collapse Supernova Modeling (Kei Kotake, Fukuoka University) -
- A "Beta" Look at Post-Merger Nucleosynthesis (Kelsey Lund, North Carolina State University) -
- Neutrinos and r-process nucleosynthesis in the FRIB era (Rebecca Surman, University of Notre Dame) - , , ,
- SNeND: “Near Detector” for Supernova Neutrino Measurements in DUNE (Yun-Tse Tsai, SLAC National Accelerator Laboratory) -
- Uncertainty Quantification for the Equation of State and Neutrino Opacities (Andrew Steiner, UTK/ORNL) -
- The MARLEY Neutrino Event Generator (Steven Gardiner, Fermi National Accelerator Laboratory) -
- Symmetries and scramblers in dense neutrino environments (Joseph Carlson, Los Alamos National Laboratory) -
- The equation of state and neutrino interactions in dense matter (Charles Horowitz, Indiana University) -
- GRHayL: An Open-source, Modular, Extensible GRMHD Library (Leo Werneck, University of Idaho) -
- Many-Body Aspects of Collective Neutrino Oscillations (Baha Balentekin, U. Wisconsin-Madison) -
- Nucleosynthesis from an accretion disk using GR$\nu$RMHD (Matthew Mumpower, Los Alamos National Laboratory) -
- Efficient Parallel Numerical Simulations of the Einstein Equations in Spherical Coordinates (Liwei Ji, CCRG RIT) -
- Quantum Closures for Quantum Moments (James Kneller, NC State University) -
- Binary Neutron Star Merger Simulations: Long-Lived Remnants, Short Gamma Ray Bursts, & Kilonovae (Jay Kalinani, Center for Computational Relativity and Gravitation) -
- Microphysics in binary neutron star mergers: status and challenges (Albino Perego, University of Trento) -
- Experimental, observational, and theoretical constraints on the nuclear symmetry energy (James Lattimer, Stony Brook University) -
- Superheavy Elements in Kilonovae (Erika Holmbeck, Carnegie Institution for Science) -
- Floquet insulators and lattice fermions (Sri Sen, Iowa State University) -
- Fluctuations in Fluid Dynamics (Thomas Schaefer, North Carolina State University) -
- A model for abundances in metal poor stars (Axel Gross, University of Minnesota) -
- Stellar Sources and Chemical Evolution of the Early Universe (Yong-Zhong Qian, University of Minnesota) -
- Gravitational wave signatures and related open issues in compact object and early universe physics (Haakon Andresen, Stockholm University) -
- Many-body collective neutrino oscillations (Amol Patwardhan, SLAC) -
- Frontiers of Neutrino Physics and Nucleosynthesis (George Fuller, University of California San Diego) -
- Quantum Textures of the Many-Body Wavefunctions in Magic-Angle Graphene (Kevin P. Nuckolls, Department of Physics, Princeton University) -
- Building Next-Generation AI for Neutrinoless Double-Beta Decay Searches (Aobo Li) -
- Composite Fermi Liquid at Zero Magnetic Field in Twisted MoTe2 (Junkai Dong, Harvard University) -
- Probing quantum materials with cQED (Nick Poniatowski, Harvard University) -
- Next-Generation Event Filtering at LHC: Leveraging Real-Time ML for Handling Massive LHC Data Streams (Thea Aarrestad, ETH Zürich) -
- S@INT Seminar: "Model order reduction emulators for low-energy nuclear physics" (Dick Furnstahl - Ohio State University) -
- The First Stars in LCDM and Fuzzy Dark Matter Cosmologies
(Eli Visbal, University of Toledo) - - Quantum gas in a box (Zoran Hadzibabic, University of Cambridge) -
- Simulating quantum materials with classical and quantum tensor networks (Andrew Potter, University of British Columbia) -
- Optical tweezer arrays of neutral Yb atoms: an exciting platform for quantum simulations of nuclear physics (Michael Bishof, Argonne National Lab) -