Colloquia
Colloquia
Past Events
- Exploring novel ferromagnetic and superconducting orders using proximity effect in material heterostructures (Peng Wei, MIT) -
- Revealing Hidden Orders in Spin-Orbit Coupled Correlated Materials (Liuyan Zhao, CalTech) -
- Compact Binary Studies with PTF, ZTF, and Beyond (Eric Bellm, Caltech) -
- Nuclear astrophysics in the multi-messenger era (Sanjay Reddy, University of Washington INT) -
- Advances in Stellar Astrophysics, Star Formation, and Exoplanet Science with Large Surveys (Keivan Guadalupe Stassun, Vanderbilt University, Fisk University) -
- Radii, rotation, and relaxation: stellar populations and kinematics of young open clusters (Kevin Covey, TBA) -
- Shedding Light on Quantum Materials (Kyle Shen, Cornell University) -
- New Insights into Astrophysical Turbulence (Brant Robertson, UC Santa Cruz) -
- Story of Miharu in response to the Fukushima Daiichi nuclear power plant accident: The Misho Project (Takeshi Koike, Tohoku University) -
- TBA (Dan Foreman-Mackey, University of Washington) -
- Alt-Instrumentation – From Ground to Space (Sarah Elizabeth Tuttle, UT Austin and UW Astronomy) -
- Tending the Fire: Growing Blacks Holes through Galaxy Mergers and Gas Accretion (Mike Koss, ETH Zurich) -
- Learning to use math in science (Edward (Joe) Redish, Department of Physics, University of Maryland) -
- Through Curving Wherewhen: Quasar Cosmology with SDSS-IV (Adam Myers, University of Wyoming) -
- 2015 Nobel mini-symposium: neutrino oscillation (J. Detwiler, R.G.H. Robertson, N. Tolich, J. Wilkes, University of Washington) -
- Berry phase effects in crystals: From anomalous Hall effect to valleytronics (Di Xiao, Carnegie Mellon University) -
- Chasing the Dark Matter Wind (Jocelyn Monroe, Royal Holloway College London) -
- The Story of Single Molecules, from Early Spectroscopy in Solids, to Super Resolution Nanoscopy in Cells and Beyond (W.E. Moerner, Stanford University) -
- Discovery of Electron Neutrino Appearance from a Muon Neutrino Beam in T2K and Future Outlook for Discovery of CP Violation in Lepton Sector (Chang Kee Jung, Stony Brook) -
- Phase transitions in bacterial populations: what tiny cells can teach us about the physics of active matter (Josh Shaevitz, Princeton) -
- Investigating student learning in upper-division laboratory courses on analog electronics (Mackenzie Stetzer, University of Maine) -
- Spins and photons: quantum optics with defect centers in diamond (Lily Childress, Department of Physics, McGill University) -
- Searches for Particle Dark Matter (Tim Tait, UC Irvine) -
- Controlling and Exploring Quantum Matter at the Single Atom Level (Immanuel Bloch, Max-Planck Institute of Quantum Optics & Ludwig-Maximilians University) -
- Nucleosynthesis and Neutrinos Near Newly Formed Compact Objects (Luke Roberts, Caltech) -
- Cosmic Rays, Solar Forcing and 20th century climate change (Nir J. Shaviv, IAS Princeton and Hebrew University of Jerusalem) -
- From Condensed Matter to Cosmology: Axions and Inflatons in the Early Universe (Chanda Prescod-Weinstein, MIT) -
- The microwave sky and the dark universe (Daniel Grin, University of Chicago) -
- Benchtop Particle Astrophysics (Gray Rybka, UW) -
- Atomic Lego with 2D materials: a new playground for condensed matter physics and nanotechnology (Yong P Chen, Purdue University) -
- Turbulent Frontiers in Massive Stellar Death (Sean Couch, California Institute of Technology) -
- Measurements of the normal state persistent current in gold mesoscopic rings (Ivana Petkovic, Yale University) -
- Elastoresistance measurements as a probe of broken symmetries in solids (Jiun-Haw Chu, Stanford University) -
- Structurally Resolved 2D Materials: from Weakly Bound to Strongly Interacting (Adam Wei Tsen, Department of Physics, Columbia University) -
- Using ultra-high magnetic fields to explore high-temperature superconductors (Brad Ramshaw, Los Alamos National Laboratory) -
- Spin orbit interaction induced magnetic dynamics (Luqiao Liu, IBM Watson Research Center) -
- Physical Review Letters today (Sami Mitra, American Physical Society) -
- Some small steps toward Artificial Life (Paul Chaikin, New York University) -
- Custom low-dimensional material systems explored from atom to bulk (Adina Luican-Mayer, Argonne National Laboratory) -
- Controlling the Quantum State of a Macroscopic Mechanical Oscillator with Microwave Fields (Tauno Palomaki, University of Washington) -
- Visualization of replication conflicts and other stories of life at a molecular scale - Applications of the 2014 Nobel Prize in Chemistry (Paul Wiggins, University of Washington, Departments of Physics and Bioengineering) -
- Detection of B-mode polarization at 150GHz and degree angular scales by BICEP2 (Clement Pryke, University of Minnesota) -
- From black holes to badly behaved metals (Sean Hartnoll, Stanford) -
- The Amazing Electron and Its Moments: Most Stringent Tests of the Standard Model and Proposed Extensions (Gerald Gabrielse, Harvard University) -
- Spin-dependent gauge fields in atomic gases (Ian Spielman, JQI, NIST and University of Maryland) -
- Mechanics and Dynamics of Rapid Cell Movement (Julie Theriot, Stanford) -
- Neutron Stars as Probes of Ultradense Matter (Feryal Ozel, University of Arizona) -
- Ultracold Gases: The Big Picture and the Details (Deborah Jin, JILA, Boulder) -
- The Hottest, and Most Liquid, Liquid in the Universe (Krishna Rajagopal (Boris A Jacobsohn Memorial Lecturer), MIT) -
- IceCube and the Discovery of High-Energy Extraterrestrial Neutrinos (Francis Halzen, Wisconsin IceCube Particle Astrophysics Center and Department of Physics, University of Wisconsin, Madison) -