Colloquia
Colloquia
Upcoming Events
Past Events
- A new concept to measure geometrically the expansion of the universe (Matt McQuinn, University of Washington) -
- The nuclear physics of heavy element origins (Rebecca Surman, University of Notre Dame) -
- From the Early Days of Quantum Mechanics to Modern Analytical Practice: The History and Future of X-ray Absorption Spectroscopy (Gerald Seidler, University of Washington) -
- The Black Hole Information Paradox: A Resolution on the Horizon? (Netta Engelhardt, MIT) -
- Statistical mechanics of collective behaviour (Thierry Mora, ENS / Chicago) -
- P5: The next decade of US particle physics (Sarah Demers, Yale University) -
- Fracton Quantum Matter (Michael Hermele, University of Colorado Boulder) -
- Topology and “impossible” electronic devices (Andrea Young, UC Santa Barbara) -
- Programmable Quantum Nanophotonics (Arka Majumdar, University of Washington) -
- Quasi-periodic driving: a tool in the quantum mechanic's toolbox (Anushya Chandran, Boston University) -
- Attosecond Science, from Atomic Physics to Condensed Matter (David Reis, Stanford University and SLAC National Accelerator Laboratory) -
- Thermal and Thermoelectric Transport in Low-Dimensional Materials (Philip Kim, Harvard) -
- Dark Matter Axion Searches (Gray Rybka, University of Washington) -
- Three-Dimensional Simulations of Core-Collapse Supernova Explosions: The Emerging Theory and Astrophysical Predictions (Adam Burrows, Princeton) -
- Black holes and quantum information (Tom Hartman, Cornell) -
- Quantum alchemy with two-dimensional materials (Matthew Yankowitz, University of Washington) -
- Programmable control of indistinguishable particles: from sampling to clocks to qubits (Adam Kaufman, University of Colorado Boulder) -
- Electromagnetism in brain imaging (Samu Taulu, University of Washington) -
- The search for dark matter particles with DAMIC (Alvaro Chavarria, University of Washington) -
- Strong interaction matter in the universe (Achim Schwenk, TU Darmstadt) -
- Signals of a Quantum Universe (Daniel Green, University of California San Diego) -
- Searching for new forces at micron scale and other fun tricks with levitated microsphere (Giorgio Gratta, Stanford University) -
- A new approach to measuring neutrino mass (Elise Novitski, University of Washington) -
- From quarks to nuclei: computing the Standard Model (Phiala Shanahan, MIT) -
- Local quantum probes of quantum matter (Amir Yacoby, Harvard) -
- Quantum Materials: A View from the Lattice (Joe Checkelsky, MIT) -
- Bosonic Quantum Information Processing (Liang Jiang, University of Chicago) -
- The fine structure of quantum spin ice (Chris Laumann, Boston University) -
- On Ising’s Model of Ferromagnetism (Peter Armitage, Johns Hopkins University) -
- Simulating Nuclear Physics from Nature's Fundamental Interactions: From Classical Computations to Quantum Simulations (Zohreh Davoudi, University of Maryland) -
- How to wake a sleeping elephant: Insights into quark (and gluon) confinement from the buzz of wee partons (Raju Venugopalan, BNL) -
- Nuclear Astrophysics with Numerical Relativity (David Radice, Penn State) -
- Ghostly Messengers of the Cosmos (Irene Tamborra, Niels Bohr Institute) -
- Cosmic Laboratories for Nuclear Physics (Almudena Arcones, Darmstadt) -
- The secret lives of quarks: from the lab to neutron stars (Jacquelyn Noronha-Hostler, University of Illinois) -
- Electron transport in Weyl and Dirac semimetals (Anton Andreev, University of Washington) -
- The “Who Ordered That” Collider (Nathaniel Craig, UC Santa Barbara) -
- Physics Is More Than Problem-solving: Building Inclusivity and Belonging by Practicing Professionalism (Marty Baylor, Carleton College) -
- LIGO past, present, and future (David Shoemaker, MIT) -
- Radioactive atoms and molecules for nuclear science (Ronald Garcia Ruiz, MIT) -
- Creating Matter (Without Antimatter!) in the Laboratory (Jason Detwiler, University of Washington / CENPA) -
- Twists and turns of superconductivity from a repulsive interaction (Andrey V. Chubukov, University of Minnesota) -
- Discovering the Dark Universe with Artificial Intelligence (Shih-Chieh Hsu, University of Washington) -
- `Programming' Quantum Simulators with Atoms and Ions (Peter Zoller, Center for Quantum Physics, University of Innsbruck, and IQOQI, Austrian Academy of Sciences, Innsbruck, Austria) -
- Direct measurement of neutrino mass with sub-eV sensitivity by KATRIN (Sanshiro Enomoto, University of Washington) -
- Searches for Neutrino-less Double Beta Decay and Dark Matter Direct Interactions (2015 Nobel Laureate Art McDonald, Gray Chair, Emeritus, Queen’s University, Kingston, Ontario, Canada) -
- The Heavyweight W boson - an Upset to the Standard Model of Particle Physics (Ashutosh Kotwal, Duke University) -
- Axionic ripples in the sky (Renée Hložek, University of Toronto) -
- 2022 Nobel Prize Colloquium (Jason Detwiler & Boris Blinov, University of Washington ) -
- Learning the shape of the immune and protein universe (Armita Nourmohammad, University of Washington) -