CENPA
CENPA
Past Events
- Precision Tests of the Standard Model with Beta Decays (Chien-Yeah Seng, FRIB, Michigan State University, and University of Washington) -
- Object detection enabling data-driven ML training for rare event searches (Jeffrey Schueler, UNM) -
- Peeping at the Universe through the keyhole: cosmology with neutrons (Stéphanie Roccia, Université Grenoble Alpes) -
- Atomic Tritium Production for the Project 8 Neutrino Mass Experiment (Walter Pettus, Indiana University) -
- Recent Results from the Neutrinoless Double Beta Decay Search with the CUORE and the future CUPID experiments (Karsten Heeger, Yale University) -
- Pushing physics boundaries with precise timing (Simone Mazza, UC Santa Cruz) -
- nEXO and the search for neutrinoless double beta decay (Brian Lenardo, SLAC) -
- The Crucial Role of Underground Argon in Rare-Event Searches (Thomas Thorpe, Los Alamos National Laboratory) -
- Why reinvent the wheel? The case for LEGEND and DarkSide technological overlap (Claudio Savarese, PhD) -
- Precision Tests of the Standard Model: The Project 8 and Muon g-2 Experiments (Christine Claessens, University of Washington) -
- The origin of flavour: from the Higgs boson to rare pion decays (Quentin Buat, University of Washington) -
- What can we learn from EDM searches - and how? (Tim Chupp, University of Michigan, Ann Arbor) -
- Building Next-Generation AI for Neutrinoless Double-Beta Decay Searches (Aobo Li) -
- Peeking inside the nucleus using beta and gamma decay and the GRIFFIN spectrometer at TRIUMF (Corina Andreoiu, Department of Chemistry, Simon Fraser University, Burnaby, BC, Canada) -
- The Mu3e experiment (Frederik Wauters, Johannes Gutenberg-University Mainz (Germany)) -
- Neutron Star Cooling: Clues about nuclear physics (Mia Kumamoto, INT @ University of Washington) -
- A Random Walk from Academia to Industry: Jovian Plasma Bubbles, cryogenic antimatter, nuclear well-logging & commercial fusion (Ben Levitt) -
- Black holes and axions: from gravitational waves to axionic beacons (Masha Baryakhtar, University of Washington) -
- The ALPHA Collaboration and the Axion Plasma Haloscope (Katherine Dunne) -
- Heavy Flavor Physics at LHCb and its current Upgrade (Svende Braun, University of Maryland) -
- Recent progress from the PandaX experiment (Jianglai Liu, Shanghai Jiao Tong University ) -
- Detecting High-Frequency Gravitational Waves with Microwave Cavities (Jan Schütte-Engel, University of Illinois Urbana-Champaign (UIUC)) -
- DANCE: Dark matter Axion search with riNg Cavity Experiment (Yuta Michimura, University of Tokyo) -
- Searches for CPT/Lorentz Invariance Violation with the Fermilab Muon g-2 Experiment (Breese Quinn, University of Mississippi) -
- Recent Developments in Gravitational Wave Astrophysics (Michael Ross, University of Washington) -
- Getting Close to Gravity: Developing the Experimental Techniques to Measure the Inverse Square Law of Gravity Down to 10-micrometer Mass Separations (Conner Gettings, University of Birmingham, UK) -
- Detection efficiency as systematic error source in Project 8 (Christine Claessens, Mainz) -
- The Muon g-2 Experiment: Measuring the Muon’s Anomalous Magnetic Moment (David Sweigart, Cornell) -
- Exotic Molecules for Nuclear Science (Ronald Garcia Ruiz, MIT) -
- Atomic Physics meets Nuclear and Beyond SM Physics (Christian Schneider, UCLA) -
- CANCELED: Electroweak Physics at ATLAS (Heather Russell (McGill University) ) -
- Gravitational searches for compact dark matter objects (Chuck Horowitz (Indiana University)) -
- Looking for Majorana in All the Wrong Places (André de Gouvêa, Northwestern University) -
- What do we really know about the proton? (Dr. Iris Abt (Max Planck Institute for Physics, Munich)) -
- Status of the Standard Model prediction for the anomalous magnetic moment of the muon (Martin Hoferichter (University of Washington, INT)) -
- Neutrino Oscillations with IceCube (Sebastian Böser, Johannes Gutenberg-University Mainz) -
- New Results from CUORE (Danielle Speller, Yale University ) -
- Higgs Boson decay as a probe to the unsolved mysteries in the Universe: dark energy, dark matter and missing antimatter (Chunhui Chen (Iowa State University)) -
- Neutron lifetime with a cold neutron beam at NIST (Shannon Fogwell Hoogerheide (NIST) ) -
- The LANL EDM Experiment: Searching for Time Reversal Violation (Thomas Bowles (LANL, University of Washington)) -
- Development of He3/He4 Dilution Fridges (Oscar Vilches, University of Washington) -
- The KATRIN neutrino mass experiment (Menglei Sun, University of Washington) -
- LArIAT: Liquid Argon In A Testbeam (Johnny Ho (University of Chicago)) -
- Tests of Fundamental Physics with Atom Interferometry (Saïda Guellati-Khélifa, Laboratoire Kastler Brossel) -
- The Beam EDM Experiment (Zachary Hodge, University of Bern) -
- Precision Measurements of Neutron Scattering Lengths of Helium Isotopes Using Neutron Interferometery (Fred Wietfeldt, Tulane University) -
- Nuclear Physics without High Momentum Potentials: Constructing the Effective Interaction Directly from Scattering Data (Wick Haxton) -
- An Improved Measurement of the Neutron Beta-Neutrino Correlation with the aCORN Experiment (Fred E. Wietfeldt, Tulane University) -
- Lattice QCD and its Applications to Nuclear Physics and Fundamental Symmetries (Amy Nicholson, University of North Carolina at Chapel Hill) -
- CALIOPE, A Search for CPT-Violation in Positronium (Chelsea Bartram, University of Washington) -