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
- 24-3 Program Talk (Chris Greene, Purdue University) -
- Surrogate Constructed Scalable Circuits ADAPT-VQE: A state preparation method for lattice field theories (Erik J. Gustafson, Research Institute for Advanced Computer Science, Mountain View) -
- Universal or not? EFT insights into two-neutron halos and Lithium-6 (Daniel Phillips, The Ohio University) -
- Confinement-induced unatomic trimers (Tobias Frederico, Instituto Tecnológico de Aeronáutica) -
- Information, Chaos, and Black Holes: the Central Dogma (Chih-Hung Wu, University of Washington) -
- Exploring fundamental physics with quantum information science (J. M. Taylor, JQI/QuICS/NIST) -
- Schrödinger-symmetry deformations at large-charge (Silas Beane, University of Washington) -
- Discrete scale invariance in charged particles (Yusuke Nishida, Tokyo Institute of Technology) -
- Nonrelativistic conformal field theory and nuclear reactions (Dam Thanh Son, University of Chicago) -
- Halo nuclei and multi-neutron correlations (Hans-Werner Hammer, TU Darmstadt) -
- Solitonic mBEC bifurcation in momentum space with a shaken lattice (Kaiyue Wang, Georgia Tech) -
- The evaporation of charged black holes (Luca Iliesiu, UC Berkeley) -
- Classical and Quantum Computing of Shear Viscosity for 2+1D SU(2) Gauge Theory (Xiaojun Yao) -
- LEGEND: Search for neutrinoless double beta decay in 76Ge (Louis Varriano, University of Washington) -
- Machine Learning for Ge-Based Neutrinoless Double-Beta Decay (Julieta Gruszko, UNC Chapel Hill ) -
- Quantum Magic and Entanglement in Shell Model Nuclei (Federico Rocco, Bielefeld University) -
- Hybrid quantum symulations of dynamics (Kyle Wendt, LLNL) -
- A narrow magic window for ultraflat bands and emergent heavy fermions near the magic angle in twisted bilayer graphene (Shaffique Adam, Washington University in St Louis) -
- Improved Actions for Short-Range Effective Field Theory (Bira van Kolck, ECT*) -
- Two Nucleons Near Unitarity with Perturbative Pions: Persistence vs Chiral Symmetry (Harald Griesshammer, George Washington University) -
- What cannot be learned in the quantum universe? (Hsin-Yuan (Robert) Huang, Google Quantum AI and Caltech) -
- Classical and Quantum Computing of Shear Viscosity (Xiaojun Yao, IQuS / University of Washington) -
- Entanglement, Complexity and Quantum Simulations of Nuclear Many-Body Systems (Caroline Robin, Bielefeld University & GSI Darmstadt) -
- Cryptographic Censorship (Lisa Yang, MIT) -
- Scalable Quantum Circuits for Confining Theories - Simulating the Schwinger Model using more than 100 qubits and One Trillion CNOT Gates (Martin Savage, IQuS / University of Washington) -
- Quantum-Classical hybrid schemes for Non-Perturbative simulation of nuclear scattering (Francesco Pederiva, Università di Trento) -
- State Preparation and Linear Response on Quantum Computers (Joe Carlson, LANL) -
- Exploring universality with a many-body density functional (Giuseppina Orlandini, Università di Trento) -
- New opportunities with defects in superconducting qubits (Mo Chen, UW MSE) -
- Analytic three-body scattering amplitudes from Lattice QCD (Sebastian Dawid, University of Washington) -
- Probing the Lifetime Frontier with the ATLAS Inner Detector (Jackson Carl Burzynski, Simon Fraiser) -
- Loop-string-hadron approach to SU(3) lattice Yang-Mills theory: Gauge invariant Hilbert space of a trivalent vertex (Jesse Stryker, Lawrence Berkeley National Laboratory) -
- Four-body scattering and reactions close to the unitary limit, and a quasi-analytical parametrization of inter-cluster potential with constituent interactions (Johannes Kirscher, SRM University AP) -
- Quantum dynamics of the transverse field Ising model (Felix von Oppen, Freie Universität Berlin) -
- Introduction to Magic Angles in Twisted Bilayer Graphene (Fedor Popov, Stony Brook University) -
- Large Nc and Low-Energy Nucleon Nucleon Interactions (Roxanne Springer, Duke University) -
- Probing exotic phases of matter with (scanning) microwave techniques (Taige Wang, UC Berkeley) -
- Progress in predictive theory for microscopic calculations of nuclear reactions (Kostas Kravvaris, Lawrence Livermore National Lab) -
- The Quantum Scientific Computing Open User Testbed (QSCOUT): Accelerating quantum computing improvements through project diversity (Susan Clark, Sandia National Lab) -
- A fresh perspective on superspace and twisted field theories (Fabian Hahner, University of Washington) -
- Experiments with Strontium Rydberg States: Spatial Correlations and Synthetic Dimensions (Yi Lu, Rice University) -
- Learning topological states using variational tensor network tomography (Yanting Teng, Harvard University) -
- Heavy metals, cheap lasers, and precision measurements of atomic structure (Protik Majumdar, Williams College) -
- Building Topological Quantum Matter in Superconducting Wire Arrays (Dmitry Green, Boston University) -
- Quantum stochastic resonance of individual Fe atoms (Sue Coppersmith, University of New South Wales) -
- Phenomenology of axion-like particle at the LHC (Kingman Cheung, National Tsing Hua University (NTHU)) -
- Recent Results from the Neutrinoless Double Beta Decay Search with the CUORE and the future CUPID experiments (Karsten Heeger, Yale University) -
- Equilibrium and Quench-Dynamical Studies of Ultracold Fermions in Ring-Shaped Optical Traps (Daniel Allman, Dartmouth College) -
- INT Workshop - QCD at the Femtoscale in the Era of Big Data -
- Ultraviolet light and next-gen solar – a new problem with an unknown mechanism (Todd Karin, VP of Technical Operations, Kiwa PVEL) -