Colloquia
Colloquia
Upcoming Events
Krishna Kumar, University of Massachusetts
PAA A102
Past Events
- Using Nanopores to Watch Enzymes at Work (Jens Gundlach) -
- Nobel Prize Special Edition (Morales & co) (Miguel Morales) -
- Majorana zero modes: a new kind of ‘particle’, and where it can be found (Charlie Marcus (UCPH and Microsoft)) -
- Becoming what you smell (Vijay Balasubramanian (U Penn)) -
- Cavity Quantum Electrodynamics with Broad Quantum Emitters (Arka Majumdar, University of Washington) -
- Coulomb gap here, there and everywhere (Boris Shklovskii, University of Minnesota) -
- Diffusion in the Quantum Era (Sean Hartnoll, Stanford University) -
- Dissecting microbial growth at multiple scales, from atoms to cells (Kerwyn C Huang, Stanford University) -
- Exploring the Dark Sector: Surprising Opportunities at Familiar Mass Scales (Natalia Toro, Stanford University) -
- Physics archaeology: unearthing a 45 year old quantum spin liquid (Patrick Lee, MIT) -
- Evolutionary Approaches to Antibiotic Resistance (Michael Baym, Harvard Medical School) -
- Faster, Smaller, Cheaper: FASER and New Particle Searches on the Lifetime Frontier (Jonathan Feng, University of California, Irvine) -
- Splitting the electron: Probing electron fractionalization in topological quantum matter (Maissam Barkeshli, University of Maryland) -
- Deep learning for single-cell biology (David Van Valen, California Institute of Technology) -
- Twisting and Stretching van der Waals Bilayers: an Atomic-Scale View (Abhay Pashupathy, Columbia University) -
- Supporting the integration of numerical computation in physics education (Marcos (Danny) Caballero, Michigan State University) -
- Building-Microbial Communities from the Bottom Up (Jeff Gore, MIT) -
- CANCELED: (CANCELLED DUE TO THE SNOW) Super-Semi Hybrids for Qubits and Beyond (Charles M Marcus, Niels Bohr Institute and Microsoft Research) -
- Two-dimensional quantum electronics with a twist (Matthew Yankowitz, Columbia University) -
- Hybrid quantum networks: interfacing photons, phonons, and superconducting qubits (Mohammad Mirhosseini, Caltech) -
- New forms of matter with ultracold atoms: spin-orbit coupling and supersolidity (Wolfgang Ketterle, MIT) -
- Visualizing quantum Hall wedding cakes: Topology- and interaction-driven effects in 2D quantum dots (Christopher Gutierrez, University of British Columbia) -
- Tunable quantum phenomena in atomically thin crystals (Qiong Ma, MIT) -
- Topology and Geometry in Quantum Materials (Su-Yang Xu, MIT) -
- New tools for probing classical and quantum nanomaterials (Arthur Barnard, Stanford University) -
- Interacting Electronic States in Graphene Heterostructures (Eric Spanton, UC Santa Barbara) -
- You may find yourself with a huge particle collider and 17 elementary particles and you may ask yourself... well, how did I get here? (Melissa Franklin, Harvard University) -
- Neutrino Properties from Cosmology (Marilena Loverde, SUNY Stony Brook) -
- Jacobsohn Lecture: Massive black holes and their cosmic backdrop (Marta Volonteri, IAP Paris) -
- A Photonic Link for Donor Spin Qubits in Silicon (Stephanie Simmons, Simon Fraser University) -
- Dark Matter in Disequilibrium (Mariangela Lisanti, Princeton University) -
- Quantum-driven classical optimization (Helmut Katzgraber, Microsoft Research) -
- The Terrestrial Planets of Other Stars (David Charbonneau, Harvard University) -
- 2018 Nobel Prize mini-symposium: "groundbreaking inventions in the field of laser physics" (Qi Zhang, Paul Wiggins and Chip Asbury, University of Washington) -
- Physics Town Hall meeting (Blayne Heckel) -
- Color and shape: Control and measurement of single-photon pulses (Brian J. Smith, University of Oregon and University of Oxford) -
- Probing the Dark Universe with Galaxy Surveys (Risa Wechsler, Stanford University) -
- Watching mutations and evolutionary dynamics in live cells and in real time (Thomas E. Kulman, University of Illinois at Urbana-Champaign) -
- A new approach to simulating the Universe (Andrew Pontzen (Jacobsohn Memorial Lecturer), University College London) -
- Floquet quantum states: topological transitions, steady states, and surprising implications (Gil Refael, Caltech) -
- Dualities in Quantum Hall Physics (Andreas Karch, University of Washington) -
- Investigative Science Learning Environment (ISLE): Learning physics by practicing it (Eugenia Etkina, Rutgers) -
- Fractionalizing the Hofstadter Butterfly: fractional Chern insulators in graphene superlattices (Michael Zaletel, Princeton University) -
- Tuning the degrees of freedom in 2D materials (Cory Dean, Columbia University) -
- What Stubs and Sparkles In Vast Vats of Liquid Will Tell Us About Exploding Stars (Kate Scholberg, Duke University) -
- Fractional quantum Hall effect as a window to new dualities in quantum field theory (Dam Thanh Son, University of Chicago) -
- Physics and chemistry with diatomic molecules near absolute zero (Tanya Zelevinsky, Columbia University) -
- Magic State Distillation: Towards a Universal Quantum Computer (Matt Hastings, Microsoft Research) -
- The UW MRSEC: Molecular Engineering Materials Center (Daniel Gamelin, Xiaodong Xu, University of Washington) -
- Anisotropies in the flux of ultra-high energy cosmic rays (Edivaldo Moura Santos, University of Sao Paolo/Chicago) -