Seminars
Seminars
Past Events
- 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) -
- Programmable Entanglement of Atoms in an Optical Cavity (Eric Cooper, Stanford University) -
- Neutron electric dipole moment from lattice QCD with background field method (Sergey Syritsyn, Stony Brook (SUNY)) -
- Electron correlation and topology in rhombohedral multilayer graphene (Long Ju, MIT Physics) -
- Neutrinoless double-beta decay and muon capture as a probe (Lotta Jokiniemi, TRIUMF) -
- Adding QED to lattice QCD: warming up for a non-perturbative calculation of neutron decay. (Zack Hall, University of North Carolina at Chapel Hill) -
- Quantum Error Correction (Victor Albert, University of Maryland & NIST) -
- Electric Dipole Moments within and beyond the Standard Model (Ting Gao, University of Minnesota) -
- The LANL nEDM experiment in context (Tim Chupp, University of Michigan) -
- EFT for de Sitter Space (Daniel Green, University of California San Diego ) -
- Applications of Dibaryon/Dimer fields in low energy EFTs (Jaber Balalhabashi, The University of Massachusetts Amherst) -
- Deconstructing the "gA puzzle": effective GT operators and meson-exchange currents (Luigi Coraggio, Universita' degli Studi della Campania "Luigi Vanvitelli") -
- Towards reliable nuclear matrix elements for neutrinoless double beta decay (Antoine Belley, TRIUMF) -
- Tests and correlations of calculated neutrinoless double-beta decay matrix elements (Javier Menendez, University of Barcelona) -
- Neutrinoless double beta decay from ab initio and machine learning perspectives (Jason Holt, TRIUMF) -
- Developments in the Calculation of Schiff Moments (Jon Engel, University of North Carolina) -
- Few body currents in effective field theory for double beta decays (Thomas Richardson, Johannes Gutenberg-Universitaet Mainz) -
- Two Nucleons and Two Violations (B, L) (Bira van Kolck, IJCLab) -
- Exploring new physics signatures in an Alternative Left-right Model (Supriya Senapati, University of Massachusetts Amherst) -
- Cosmic Reionization: When, How, and Who? (Adam Lidz, U Penn) -
- QIS in Physics: Properties of donor qubits in ZnO formed by indium ion implantation (Kai-Mei Fu, University of Washington) -
- Quantifying EFT uncertainties with lattice QCD (Andre’ Walker-Loud, Lawrence Berkeley National Laboratory) -
- Selected results on the neutron electric dipole moment from lattice QCD (Andrea Shindler, Michigan State University) -
- Real-time modeling with active interventions (Anne Draelos, University of Michigan) -
- Towards a more precise description of the neutrinoless double beta decay (Mihai Horoi, Central Michigan University) -
- The next big thing in gravitational-wave astrophysics (Salvatore Vitale, MIT LIGO) -
- UV/IR mixing in field theory with matter at finite density (Liujun Zou, Perimeter Institute) -
- Entanglement entropies in nuclear systems (Thomas Papenbrock, University of Tennessee) -
- The statistics of spin for CFTs (Nathan Benjamin, Caltech) -
- Beta decay beyond the Standard Model in SMEFT (Maria Dawid, Institute for Nuclear Theory) -
- Scrutinizing the CKM anomaly within SMEFT and using sterile neutrinos (Heleen Mulder, Nikhef) -
- Probing beyond the Standard Model with precision measurements (Wouter Dekens, Institute for Nuclear Theory) -
- Search for production of Standard Model VVZ in proton-proton collisions at √s = 13 TeV with the ATLAS detector (Gabriel Rabanal, Harvard) -
- Probing interfacial polarization in rhombohedral-stacked transition metal dichalcogenides (Ziliang Ye, University of British Columbia) -
- Model-Independent BSM Physics Searches using Rare-Isotope-Doped Superconducting and Optomechanical Sensors (Kyle Leach, Colorado School of Mines) -
- What can be learned from isolating individual beta transitions from the same nucleus (Bertis Rasco, Oak Ridge National Laboratory) -
- Revisiting Soft Collinear Effective Theory extractions of alpha_s from e+e- event shapes (Jim Talbert, University of Cambridge) -
- Three-Body Dynamics from LQCD: Lorentz Invariance of the Non-Relativistic EFT Approach (Fabian Mueller, University of Bonn ) -