Colloquia
Colloquia
Upcoming Events
Ben Lev, Stanford University
PAA A102
Past Events
- IceCube and the Discovery of High-Energy Extraterrestrial Neutrinos (Francis Halzen, Wisconsin IceCube Particle Astrophysics Center and Department of Physics, University of Wisconsin, Madison) -
- Quantum Nano-Optics (Jelena Vuckovic, Stanford University) -
- Hunting for WIMPs in the Panda Land (Xiangdong Ji, University of Maryland/Shanghai Jiao Tong University) -
- A New Look At Knots and Quantum Mechanics (Edward Witten, Institute for Advanced Study, Princeton) -
- Making the world’s best clock (Jun Ye, JILA and U Colorado at Boulder) -
- Engineering New Electronic States in Graphene Heterostructures: Massive Dirac Fermions and Hofstadter’s Butterfly (Benjamin Hunt, MIT Physics Department) -
- Neutrinos: Future directions in particle physics and astrophysics (Nikolai Tolich, UW Physics) -
- Topology, symmetry, and edge states in graphene heterostructures (Andrea Young, MIT Physics Department) -
- The physics of supercapacitors (Brian Skinner, Argonne National Laboratory) -
- Photonic topological insulators and pseudomagnetism (Mikael Rechtsman, Technion) -
- Rogue Atoms in Flatland: Probing atomic disorder in two-dimensional systems (Pinshane Huang, School of Applied and Engineering Physics, Cornell University) -
- Quantum control of metal/semiconductor hybrid systems: from atomic layer superconductivity to deep sub-diffraction nanolasers (Chih-Kang (Ken) Shih, Department of Physics, The University of Texas at Austin) -
- Thin film interference in ultra-thin layers: color coatings, tunable absorbers, and thermal emitters (Mikhail A. Kats, Harvard University) -
- Hot carriers in Graphene (Justin Song, MIT) -
- Controlling electrons and excitons in the two dimensional limit (Arend van der Zande, Columbia University) -
- Optical generation and electrical control of spins and pseudospins in 2D semiconductors (Xiaodong Xu, Department of Physics and Department of Materials Science and Engineering, University of Washington) -
- Beyond the Higgs Boson: Further questions and expectations for the Large Hadron Collider (Michael Peskin, Stanford University) -
- Taking Control of Quantum Electronics (Irfan Siddiqi, Quantum Nanoelectronics Laboratory, UC Berkeley) -
- A research-validated approach to transforming upper-division physics courses (Steven Pollock, Department of Physics, University of Colorado Boulder) -
- Exploring Collective Effects for Precision Measurement (James Thompson, University of Colorado Boulder) -
- Topological States of Matter (Bogdan A. Bernevig, Department of Physics, Princeton University) -
- Principles and Applications of Magnetoencephaloraphy (MEG) for Non-Invasive Brain Imaging (Samu Taulu, Elekta Oy, Helsinki, Finland) -
- Remote control and high-resolution measurement for molecular motors research (Zev Bryant, Department of Bioengineering, Stanford University) -
- Nobel mini-symposium 2013: The Higgs boson (Ann Nelson and Henry Lubatti, University of Washington) -
- Black Holes and Firewalls: Can We Take Nothing For Granted (Rafael Bousso, Department of Physics, UC Berkeley) -
- 21 cm Cosmology (Miguel Morales, UW Physics) -
- Amplified Stimulated X-Ray Emission in Atomic and Molecular Systems (Nina Rohringer, CFEL) -
- Project X (Bob Tschirhart, FNAL) -
- First results from the AMS Experiment on the International Space Station (Veronica Bindi, Hawaii University) -
- Precision Measurements With Atom Interferometry (Holger Müller, University of California, Berkeley) -
- Results from Planck (James G. Bartlett, Universite Paris Diderot & California Institute of Technology) -
- Axion Detection with NMR (Peter Graham, Stanford University) -
- From Nuclear Forces to Nuclei (Sonia Bacca, TRIUMF) -
- Probing New Physics beyond the Standard Model with Neutrino Oscillation (Mu-Chun Chen, University of California Irvine) -
- Testing the Standard Model with Lattice QCD (Ruth Van De Water, Fermi National Accelerator Laboratory) -
- The Proton Radius Puzzle (Gerald Miller, University of Washington) -
- Stellar Explosions and Element Synthesis (Gail McLaughlin, North Carolina State University) -
- Holography, Black Holes and Quantum Gravity (Alex Maloney, McGill University) -
- Aspects of 21st Century Nuclear Physics (Silas Beane, UNH) -
- Cosmic clues for dark matter and their implications for a dark matter asymmetry (Kathryn Zurek, University of Michigan) -
- Lattice QCD (Kostas Orginos, The College of William and Mary, Theory Center at Jefferson Lab) -
- Quantum Mechanics and Space-Time in the 21st Century (Nima Arkani-Hamed, IAS) -
- The Emergence of Jets at the Large Hadron Collider (Matt Schwartz, Harvard) -
- Searching for dark matter in the discovery age (Dan Hooper, Fermilab) -
- Nuclear forces from quantum chromodynamics (Martin Savage, Department of Physics, University of Washington) -
- The New Astronomy of LIGO: Exploring the Gravitational-wave Sky (Duncan Brown, Syracuse University) -
- Bloch, Landau, and Dirac: Hofstadter’s Butterfly in Graphene (Philip Kim, Department of Physics, Columbia University) -
- Large-Scale Integrated Photonics for Twenty-First Century Information Technologies. (Ray Beausoleil, HP Labs, Palo Alto) -
- Search for Majorana Fermions in Spin-Orbit Coupled Superfluids and Superconductors (Chuanwei Zhang, Department of Physics, University of Texas at Dallas) -
- Nobel Prize symposium: manipulation of individual quantum systems (local experts, University of Washington) -