Seminars
Seminars
Upcoming Events
Daniel Hackett, Fermi National Accelerator Laboratory
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PAT C-421
T Serkan Kasirga, Bilkent University
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PAT C520
Past Events
- Nonperturbative Real-Time Simulations of Chiral Gauge Theories and Baryogenesis (Hersh Singh, Fermi National Accelerator Laboratory) -
- Tuning the sharpness of quantum measurements using position entangled atomic states (Kirk Madison, University of British Columbia) -
- Non-equilibrium phases in driven quasicrystals (Yifei Bai, UC Santa Barbara) -
- Optical studies of gyrotropic quantum materials (Aharon Kapitulnik, Stanford University) -
- Quantum Complexity and Simulation of Nuclear Many-Body Systems (Caroline Robin, Bielefeld University and GSI Darmstadt) -
- Atomic quantum processors and the error-correction frontier (Dolev Bluvstein, CalTech) -
- Realization of a Pfaffian quantum Hall state with ultracold bosons (Joyce Kwan, CU Boulder) -
- From nuclear shapes to new physics (Samantha Johnson, North Carolina State University) -
- Learning Fundamental Physics from Cosmological Probes: Neutrinos and the Cosmic Microwave Background (Gabriele Montefalcone, University of Texas at Austin) -
- Low-energy nuclear physics for fundamental science (Garrett King, Los Alamos National Laboratory) -
- Hydrodynamics at the Quantum Frontier: From the Quark-Gluon Plasma to Quantum Materials (Nick Abboud, University of Illinois Urbana-Champaign) -
- New Symmetries for New Particle Physics (Marius Kongsore, NYU) -
- Heavy-Element Nucleosynthesis from the Collapse of White Dwarfs (Tetyana Pitik, UC Berkeley) -
- Visualization and spectroscopic study of strongly interacting electrons in Bernal-stacked bilayer graphene at high magnetic fields (Yen-Chen Tsui, Princeton University) -
- 25-3b Program -- Prospects and challenges for cosmic relics using nuclear spins (Giovanni Pierobon - University of New South Wales) -
- 25-3b Program -- Recent theory developments for quarkonium evolution in hot QCD medium (Pol Bernard Gossiaux - IMT Atlantique) -
- Finding a hardware path to quantum computing for life sciences (Peter Krogstrup, Niels Bohr Institute) -
- 25-3b Program -- Infrared Divergences in Open Quantum Systems (Soo-Jong Rey - Kwangwoon University) -
- Cooling algorithms for quantum many-body state preparation (Jerome Lloyd, University of Geneva) -
- 25-3b Program -- Holographic perspective on open quantum systems (Alex Buchel - Western University/Perimeter Institute) -
- 25-3b Program -- Towards optimal observables for in-medium quarkonium (Alexander Karl Rothkopf - Korea University) -
- 25-3b Program -- Open Effective Field Theories for the early and late universe (Thomas Colas - University of Cambridge) -
- QCD Axion Condensates and Neutron Star Radial Oscillations (Antonio Gomez - Universidad de Alicante) -
- Dipolar Rydberg atoms and the Dirac spin liquid (Marcus Bintz, Harvard University) -
- 25-3b Program -- An open system approach to gravity (Enrico Pajer - University of Cambridge) -
- 25-3b Program -- How the medium detects the color of jet partons : An EFT description (Varun Vaidya - University of South Dakota) -
- 25-3b Program -- Partial observations and ensembles of open quantum systems (Sarah Shandera - Pennsylvania State University) -
- The Quantum Twisting Microscope: Image quantum matter in momentum space (Jiewen Xiao, Weizmann Institute) -
- 25-3b Program -- Cosmic Lockdown: How decoherence saves the universe from tunnelling (Gregory P Kaplanek - Syracuse University) -
- Anomalous Hall Crystals and their Phonons (Junkai Dong, Harvard University) -
- 25-3b Program -- Variational approaches to simulations of Lindbladian dynamics (Joshua Lin - Massachusetts Institute of Technology) -
- 25-3b Program -- Open Quantum Systems for dark matter in the early universe (Tobias Binder - Technical University of Munich) -
- Ultrafast Control of Hidden Magnetic Phases by Shaping Fluctuations (Tianchuang (Michael) Luo, MIT) -
- 25-3b Program -- Theory of OQS and quantum simulation (Rahul Trivedi - Max Planck Institute of Quantum Optics) -
- 25-3b Program -- Numerically Exact Methods for Open Quantum Dynamics: Applications to Low-Energy Nuclear Reactions (Masaaki Tokieda - Kyoto University) -
- 25-3b Program -- Digital quantum simulation of cavity quantum electrodynamics: insights from superconducting and trapped ion quantum testbeds (Marina Marinkovic - Institute for Theoretical Physics) -
- 25-3b Program -- Open quantum system approach to jets in heavy-ion collisions (Balbeer Singh - University of South Dakota) -
- Discovery of spontaneous mesoscopic strain waves in nematic domains using dark-field X-ray microscopy (Kaan Alp Yay, Stanford University) -
- Caged Superconductivity, Flat Bands, and 2D Topological Matter (Charles Marcus, University of Washington) -
- 25-3b Program -- Towards real time simulations of baryogenesis as an open quantum system (Hersh Singh - Fermilab) -
- 25-3b Program -- Quarkonium beyond the E/T expansion: Non-Lindblad master equations (Tom Magorsch - Technical University of Munich) -
- 25-3b Program -- Open quantum systems in nuclear physics (Kevin Fossez - Florida State University) -
- 25-3b Program -- QED in 2+1 dimensions with qubits and qumodes (Tommaso Rainaldi - Stony Brook University) -
- Framework for Quantum Simulations of Energy-Loss in Non-Abelian Gauge Theories: SU(2) Lattice Gauge Theory in 1+1D (Zhiyao Li, InQubator for Quantum Simulation) -
- Progress toward an isotope shift measurement with a strontium molecular lattice clock (Brandon Iritani, Columbia University) -
- Imaging Quantum and Mesoscopic Phenomena with NanoSQUID-on-Tip Microscopy (Evgeny Redekop, UC Santa Barbara) -
- Electron fractionalization without magnetic fields: characterizing composite fermions in twisted bilayer MoTe2 (Santos, Luiz Henrique, Emory University ) -
- Melting the LHC: a search for long-lived gluinos in liquid detector materials (Samuel Wong, University of Washington) -
- Classical Shadows for Sample-Efficient Measurements of Gauge-Invariant Observables (Henry Froland, InQubator for Quantum Simulation) -
- The sound of electrons shattering...can be rather quiet (Josephine Yu, Stanford) -