Elementary Particle Experiment (EPE)
Elementary Particle Experiment (EPE)
Past Events
- Searching for Dark Photon Tridents Through Primordial Black Hole Signatures (Kingman Cheung, National Tsing Hua University (NTHU), Taiwan) -
- Autonomous Model Building with Reinforcement Learning: An Application with Neutrino Flavor Symmetries (Jake Rudolph, UC Irvine) -
- Higgs physics with Neural Simulation-Based Inference at the LHC and in ALTAS (Aishik Ghosh, UC Irvine and Berkeley Lab) -
- LEGEND: Search for neutrinoless double beta decay in 76Ge (Louis Varriano, University of Washington) -
- Probing the Lifetime Frontier with the ATLAS Inner Detector (Jackson Carl Burzynski, Simon Fraiser) -
- Phenomenology of axion-like particle at the LHC (Kingman Cheung, National Tsing Hua University (NTHU)) -
- B's Behaving Badly (Peter Onyisi, University of Texas, Austin) -
- Search for exotic Higgs boson decays with CMS and fast machine learning solutions for the LHC (Ho Fung Tsoi, University of Wisconsin-Madison) -
- Constraining the Higgs self-coupling and looking for new physics (Yulei Zhang, Shanghai Jiao Tong University, Singapore) -
- Search for pair production of higgsinos in events with two Higgs bosons and missing transverse momentum in sqrt(s)=13 TeV pp collisions at the ATLAS experiment (Michael Donald Hank, University of Pennsylvania) -
- PIONEER, a next-generation rare pion decay experiment (Quentin Buat, University of Washington) -
- SUB-Millicharged Experiment (SUBMET) at J-PARC (Jae Hyeok Yoo, Korea University) -
- FASER entering uncharted territory: the first result of dark photon search and the first observation of collider neutrinos (Shih-Chieh Hsu, University of Washington) -
- The Good, The Bad, and the Ugly: A Tale of Physics, Software, and ML (Alexandra Golub and Gordon Watts, University of Washington) -
- The next big thing in gravitational-wave astrophysics (Salvatore Vitale, MIT LIGO) -
- Search for production of Standard Model VVZ in proton-proton collisions at √s = 13 TeV with the ATLAS detector (Gabriel Rabanal, Harvard) -
- The ups and downs of the flavor anomalies at LHCb (Manuel Franco Sevilla, University of Maryland) -
- Searching for long-lived particles at the LHC (Cristiano Alpigiani, University of Washington) -
- Particle Tracking Reconstruction with the ExaTrkX Pipeline (Dr. Xiangyang Ju, Lawrence Berkeley National Lab) -
- First Data from the FASER ecperiment at the LHC Run3 (Shih-Chieh Hsu, University of Washington) -
- What can we learn with tau leptons at the LHC? (Quentin Buat, University of Washington) -
- Probing the Life-time Frontier (Henry Lubatti, University of Washington) -
- Searching for Muonic Force Carriers with ATLAS (Professor Enrique Kajomovitz, Technion Institute of Technology, Haifa, Israel) -
- GALI: a gamma-ray burst localizing instrument (Shlomit Tarem, Technion Institute of Technology, Haifa, Israel) -
- Tau Leptons at ATLAS (Quentin Buat, Stoney Brook University, New York) -
- Electroweak Physics at ATLAS (Dr. Heather Russell, CERN) -
- CANCELED: Electroweak Physics at ATLAS (Dr. Heather Russell, CERN) -
- Using Modern Computing to Get the Most out of the LHC (Gordon Watts, University of Washington) -
- Quantum Science at Fermilab (Dr. Gabriel Perdue, Fermi National Accelerator Laboratory) -
- Quantum Computing in High-Energy Physics and Related Fields (Dr. Koji Terashi, University of Tokyo) -
- Physicists Learning from Machines Learning (Taylor Faucett, University of California, Irvine) -
- New Sub-GeV Dark Matter Results from SENSEI (Sho Uemura, Tel Aviv University (TAU)) -
- Quantum Technologies for High Energy Physics: the CERN Quantum Technology Initiative (Sofia Vallecorsa, CERN) -
- The milliQan experiment at CERN: Recent Results and Plans (Andy Haas, New York University) -
- Looking forward to new Physics with FASER (Felix Kling, SLAC) -
- Modeling final state radiation on a quantum computer (Benjamin Nachman, Lawrence Berkeley National Laboratory) -
- Machine Learning Applications in ATLAS Simulation and Physics (Jana Schaarschmidt, University of Washington) -
- Search for dark matter with the mono-h channel at CMS (Prof. Shin-Shan Yu, National Central University (Taiwan)) -
- Baryogenesis, B mesons, and Dark Matter (Gilly Elor, University of Washington) -
- Cosmology with gamma-rays detected by Fermi (Toby Burnett, University of Washington) -
- Neutrino experiments (Jeff Wilkes, University of Washington) -
- Highlights from Dark Matter @LHC 2018 (Shih-Chieh Hsu, University of Washington) -
- Latest Progress at the CEPC (Shih-Chieh Hsu, University of Washington) -
- Exploring the life-time frontier at the LHC (Henry Lubatti, University of Washington) -
- Searching for Dark Matter with Boosted Higgs Bosons with the ATLAS Detector (Nikola Whallon, University of Washington) -
- FatJets : From Buzz Words to Bread and Butter at the LHC (Samuel Meehan, University of Washington) -
- Searching for SUSY with ATLAS, and Beyond with MilliQan (Maximilian Swiatlowski, University of Chicago) -
- High Energy Circular Electron Positron Collider (CEPC) - Challenges and Opportunities (Xinchou Lou, Institute of High Energy Physics, Beijing, China - University of Texas at Dallas) -
- Status of jet substructure and hadronic W/Z/H tagging in the ATLAS detector (Shih-Chieh Hsu, UW Physics) -
- Status of Machine Learning Techniques in LHC Experiments (Gordon Watts, University of Washington) -