INT
INT
Past Events
- 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) -
- 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) -
- Towards a more precise description of the neutrinoless double beta decay (Mihai Horoi, Central Michigan University) -
- Workshop - New physics searches at the precision frontier - , , , ,
- 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) -
- 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) -
- Revisiting outer radiative corrections for superallowed beta decay with EFT (Ryan Plestid, Caltech) -
- Precision beta decays in Effective Field Theory (Emanuele Mereghetti, Los Alamos National Lab) -
- Beta decay matrix elements, strengths, and spectra with quantum Monte Carlo methods (Garrett King, Washington University - St. Louis) -
- Standard Model corrections to Fermi transitions in light nuclei (Michael Gennari, TRIUMF) -
- S@INT Seminar: "Inelastic Reactions on a Quantum Computer" (Gautam Rupak - Mississippi State University) -
- S@INT Seminar: "QCD Factorization: matching hadrons to quarks and gluons with controllable approximations" (Jianwei Qiu - Jefferson Lab) -
- Seminar: "Exact lattice anomalies and a possible path to lattice chiral gauge theories" (Simon Catterall - Syracuse University) -
- INT Workshop - Tensor Networks in Many Body and Quantum Field Theory - , , , ,
- S@INT Seminar: "Uncertainties and Constraints for neutrino opacities in core-collapse supernovae and neutron star mergers" (Zidu Lin - University of Tennessee, Knoxville) -
- INT Hybrid Workshop - Accessing and Understanding the QCD Spectra - , , , ,
- S@INT Seminar: "Tight Symmetry Energy Parameter Constraints from Neutron Skin Measurements" (James Lattimer - Stony Brook University) -
- INT Workshop - Topological Phases of Matter: From Low to High Energy - , , , ,
- S@INT Seminar: "The Stability-Causality Theorem" (Lorenzo Gavassino - Vanderbilt University) -
- Isobar collisions with a 3D initial state (Chun Shen, Wayne State University) -
- Ab initio PGCM and applications to light nuclei (Jean-Paul Ebran, CEA) -
- Applicability of hydrodynamics in high-energy collisions (Dekrayat Almaalol, University of Illinois Urbana-Champaign) -
- S@INT Seminar: "Simulating jet quenching in detail" (Abhijit Majumder - Wayne State University) -
- Coupled cluster computations of radii and neutron skins (Gaute Hagen, Oak Ridge National Laboratory) -
- Light-ion collisions as a laboratory for effective theories of nuclei (Wilke van der Schee, CERN/Utrecht University) -
- Ab initio computations of deformed nuclei (Thomas Papenbrock, University of Tennessee) -
- Multi-particle correlations and nuclear structure (You Zhou, Niels Bohr Institute) -
- State-of-the-art nucleon-nucleon interactions (Maria Piarulli, Washington University of St. Louis) -
- Dense Nuclear Matter Equation of State from Heavy-Ion Collisions (Agnieszka Sorensen, Institute for Nuclear Theory) -
- Collective phenomena in small systems (Wei Li, Rice University) -
- Effective field theories of QCD for nuclei at low energy (Heiko Hergert, Michigan State University) -
- INT Hybrid Workshop: Intersection of nuclear structure and high‐energy nuclear collisions - , , , ,
- Probing nuclear symmetry energy (Bao-An Li, Texas A&M University-Commerce) -
- Neutron skin determinations via isobar collisions (HaoJie Xu, Huzhou University) -
- Nuclear structure input and CME (Guo-Liang Ma, Fudan University) -
- Constraining parameters of initial condition in isobar collisions (Seyed Farid Taghavi, Technical University of Munich) -
- Impact of small-x evolution of nuclear deformations and application to isobar collisions (Pragya Singh, University of Jyvuäskylä) -
- Relativistic energy-density functional (Jie Meng, Peking University) -
- Neutron skin sensitivity of weak probes in isobar collisions (Weiyao Ke, Los Alamos National Laboratory) -
- Deformation of A=96 isobars (Tomas Rodriguez, Universidad Complutense de Madrid) -