Seminars
Seminars
Upcoming Events
Oliver Thim - Chalmers University of Technology
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PAT C-421
Ramya Bhaskar - Sandia National Laboratories
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PAT C-421
Christian Weinheimer, Institut fuer Kernphysik, Universitaet Muenster
CENPA Conference Room (NPL 178)
Sofia Corbà, University of Massachusetts Amherst
PAT C421
Dmitri E. Kharzeev, Stony Brook University
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PAT C423
Sebastian König - NC State University
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PAT C-421
Past Events
- Phenomenologist's Guide to the Axiverse (Ella Henry, University of Washington) -
- 26-1 Program -- Static and Time-Dependent CI in Continuum for Multi-Nucleon Transfer Reactions (Aurel Bulgac - University of Washington ) -
- 26-1 Program -- On the Reliability of Two-Baryon Interactions from Lattice QCD (Andrew Hanlon - Kent State University) -
- 26-1 Program -- QMC and Chiral EFT: Uncertainty Quantification and Perturbation Theory (Ryan Curry - University of Guelph) -
- 26-1 Program -- Light nuclear scattering from neural quantum states via stable minimum principles (Yukari Yamauchi - Los Alamos National Laboratory) -
- From Rhombohedral Graphene to Anomalous Hall Crystals (Dan Parker, UCSD) -
- Dimer Effective Field Theory (David Kaplan, University of Washington) -
- 26-1 Program -- Machine learning for variance reduction in lattice QCD (and other Monte Carlo methods) (Dan Hackett - Fermilab) -
- 26-1 Program -- Baryon-baryon interactions from lattice QCD (Michael Wagman - Fermilab) -
- Quasicrystals of Ultracold Quantum Matter (Charles Brown, Yale University) -
- 26-1 Program -- Challenges for Nuclear Hamiltonians (Achim Schwenk - TU Darmstadt) -
- 26-1 Program -- Framing the problem differently: The perspective of Emulation (Jose Munoz - Massachusetts Institute of Technology) -
- 26-1 Program -- A Pragmatist Approach to a New Chiral Interaction: The Dripline in Calcium (Gaute Hagen - Oak Ridge National Laboratory) -
- 26-1 Program -- Electroweak properties of medium-mass nuclei and a new emulator (Takayuki Miyagi - University of Tsukuba) -
- 26-1 Program -- Lattice computations of atomic nuclei with NuLattice (Thomas Papenbrock - University of Tennessee) -
- 26-1 Program -- Many-body techniques for systematic calculations of closed- and open-shell nuclei (Vittorio Soma - CEA Paris-Saclay) -
- 26-1 Program -- Nuclear Hamiltonians for nuclear densities and lattice calculations (Matthias Heinz - Oak Ridge National Laboratory) -
- 26-1 Program -- What can we learn about the nuclear Hamiltonians from neutron star observations? (Rahul Somasundaran - Los Alamos National Laboratory) -
- 26-1 Program -- Ab initio calculations with sub-leading three-nucleon interaction (Petr Navratil - TRIUMF) -
- Towards Universal Fault-tolerant Logic on Holographic Codes (Charles Cao, Virginia Tech) -
- 26-1 Program -- Connecting nuclear force parameters to nuclear observables via machine learning emulation (Antoine Belley - Massachusetts Institute of Technology) -
- 26-1 Program -- The Virtue of Doubt: Bayesian UQ in Ab Initio Nuclear Theory (Christian Forssen - Chalmers University of Technology) -
- Quantum Chaos as a Resource for Quantum Control (Lukas Beringer, University of Regensburg, Germany) -
- Probing Cosmic Acceleration with DESI: Dark Energy or Modified Gravity? (Cristhian Garcia-Quintero, Center for Astrophysics, Harvard & Smithsonian) -
- Unstable itinerancy: how a pinch of disorder can delocalize carriers of charge and entropy in correlated systems (James Analytis, UC Berkeley) -
- Vari-Cool: a non-unitary quantum variational protocol for simulated cooling (Mark Rudner, University of Washington) -
- Revealing the information content of galaxy clustering with field-level and simulation-based inference (Beatriz Tucci, Stanford University) -
- Let’s talk about tau! (the high cost of a low optical depth) (Noah Sailer, Stanford University) -
- Towards reconfigurable and deterministic twistronic 2D materials (Yuan Cao, University of California at Berkeley) -
- Why is Magic Important (in Holography) (Alioscia Hamma, University of Naples Federico II) -
- Local primordial non-Gaussianity from 'zero-bias' 21cm radiation during reionization (Nick Kokron, Institute for Advanced Study) -
- Optoelectronics and phase transitions of atomically thin materials via proximity engineering (T Serkan Kasirga, Bilkent University) -
- Proton tomography with generalized parton distributions at current and future facilities (Yuxun Guo, Lawrence Berkeley National Lab) -
- Ultralocal measure is not canonical (Maciej Kolanowski, UCSB) -
- Optimization by Decoded Quantum Interferometry (Stephen Jordan, Google Quantum AI) -
- An Introduction to Intellectual Property and Commercialization at UW: CoMotion (Judy Bridges, UW CoMotion) -
- New Josephson junctions for solid-state qubits and quantum simulators (Charlotte Georgine Lang Boettcher, Stanford University) -
- The Maximal Entanglement Limit in Statistical and High Energy Physics (Dmitri E. Kharzeev, Stony Brook University) -
- Multi-Messenger Signatures of High-Energy Transients: Probing Extreme Physics from Collapse to Observation (Tetyana Pitik, UC Berkeley) -
- Twisted trilayer graphene under the microscope (Ben Feldman, Stanford University) -
- Does hot QCD have a conformal manifold in the chiral limit? (Aleksey Cherman, University of Minnesota) -
- Quantum fields from quantum cellular automata: locality, interactions, and positive energy (Todd Andrew Brun, University of Southern California) -
- Nuclear Theory at the Intelligence Frontier (Daniel Hackett, Fermi National Accelerator Laboratory) -
- Nonperturbative Real-Time Simulations of Chiral Gauge Theories and Baryogenesis (Hersh Singh, Fermi National Accelerator Laboratory) -
- Tuning the sharpness of quantum measurements using position entangled atomic states (Kirk Madison, University of British Columbia) -
- Resurrecting the coherent state variational algorithm for large N gauge theories (Laurence Yaffe, University of Washington) -
- Non-equilibrium phases in driven quasicrystals (Yifei Bai, UC Santa Barbara) -
- Optical studies of gyrotropic quantum materials (Aharon Kapitulnik, Stanford University) -
- Quantum Complexity and Simulation of Nuclear Many-Body Systems (Caroline Robin, Bielefeld University and GSI Darmstadt) -
- Atomic quantum processors and the error-correction frontier (Dolev Bluvstein, CalTech) -