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Past Events
- 26-1 Program -- Ab initio No-Core Shell Model - Recent Results and Plans (James Vary - Iowa State University) -
- 26-1 Program -- TBD: Theory–Experiment Bridge to Discovery (Ronald Garcia Ruiz - Massachusetts Institute of Technology) -
- 26-1 Program -- Non-relativistic scattering with quantum computers and machine learning (Lucas Platter - University of Tennessee) -
- 26-1 Program -- Dimer Effective Field Theory (Cullen Gantenberg - University of Washington) -
- 26-1 Program -- Perturbative adventures in Chiral EFT (Sebastian König - NC State University) -
- 26-1 Program -- Power counting (yet again) and implications for 3N forces (Evgeny Epelbaum - Ruhr-Universität Bochum) -
- 26-1 Program -- Quantum Information Scrambling Dynamics in Many-Body Neutrino Systems (Ramya Bhaskar - Sandia National Laboratories) -
- 26-1 Program -- Perturbative calculations of few-nucleon observables in chiral EFT up to N3LO (Oliver Thim - Chalmers University of Technology) -
- 26-1 Program -- A Renormalizable Theory for Not-So-Light Nuclei (Bira van Kolck - ECT*) -
- 26-1 Program Talk (Thomas Richardson - UC Berkeley & LBL) -
- 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) -
- Embedded Workshop - Nuclear Hamiltonians for Advancing Nuclear Physics and Beyond -
- Embedded Workshop - Nuclear Hamiltonians for Advancing Nuclear Physics and Beyond -
- Embedded Workshop - Nuclear Hamiltonians for Advancing Nuclear Physics and Beyond -
- Embedded Workshop - Nuclear Hamiltonians for Advancing Nuclear Physics and Beyond -
- Embedded Workshop - Nuclear Hamiltonians for Advancing Nuclear Physics and Beyond -
- 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) -
- 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) -
- 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) -
- Proton tomography with generalized parton distributions at current and future facilities (Yuxun Guo, Lawrence Berkeley National Lab) -
- Multi-Messenger Signatures of High-Energy Transients: Probing Extreme Physics from Collapse to Observation (Tetyana Pitik, UC Berkeley) -
- 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) -
- Heavy-Element Nucleosynthesis from the Collapse of White Dwarfs (Tetyana Pitik, UC Berkeley) -
- 25-3b Program -- Prospects and challenges for cosmic relics using nuclear spins (Giovanni Pierobon - University of New South Wales) -
- 25-3b Program -- Recent theory developments for quarkonium evolution in hot QCD medium (Pol Bernard Gossiaux - IMT Atlantique) -
- 25-3b Program -- Infrared Divergences in Open Quantum Systems (Soo-Jong Rey - Kwangwoon University) -
- 25-3b Program -- Holographic perspective on open quantum systems (Alex Buchel - Western University/Perimeter Institute) -
- 25-3b Program -- Towards optimal observables for in-medium quarkonium (Alexander Karl Rothkopf - Korea University) -
- 25-3b Program -- Open Effective Field Theories for the early and late universe (Thomas Colas - University of Cambridge) -
- QCD Axion Condensates and Neutron Star Radial Oscillations (Antonio Gomez - Universidad de Alicante) -
- 25-3b Program -- An open system approach to gravity (Enrico Pajer - University of Cambridge) -
- 25-3b Program -- How the medium detects the color of jet partons : An EFT description (Varun Vaidya - University of South Dakota) -
- 25-3b Program -- Partial observations and ensembles of open quantum systems (Sarah Shandera - Pennsylvania State University) -
- 25-3b Program -- Cosmic Lockdown: How decoherence saves the universe from tunnelling (Gregory P Kaplanek - Syracuse University) -
- 25-3b Program -- Variational approaches to simulations of Lindbladian dynamics (Joshua Lin - Massachusetts Institute of Technology) -
- 25-3b Program -- Open Quantum Systems for dark matter in the early universe (Tobias Binder - Technical University of Munich) -