InQubator for Quantum Simulation (IQuS)
InQubator for Quantum Simulation (IQuS)
Upcoming Events
Alessandro Roggero, University of Trento
PAT C-421
Past Events
- Tapered Quantum Phase Estimation (room has changed! PAT C-421) (Andrew Sornborger, Los Alamos National Lab & Quantum Science Center -- Quantum Algorithms and Simulation Lead) -
- Simulating fermionic scattering using a digital quantum computing approach (Yahui Chai, DESY) -
- Variational quantum algorithm for quantum matter using Trotterized entanglement renormalization (Thomas Barthel, Duke University) -
- AI in Physics (Peter Morgan, CEO, Deep Learning Partnership) -
- Quantum many-body equilibration of fast neutrino flavor oscillations (Joshua Martin, Los Alamos National Lab) -
- Ultracold atoms as quantum simulators for neutron matter (Thomas Schaefer, North Carolina State University) -
- Crafting Generative Models & Unraveling High Energy Physics with Parameterized Quantum Circuits (Andrea Delgado, Oak Ridge National Lab) -
- Quantum error thresholds for gauge-redundant digitizations of lattice field theories (Wanqiang Liu) -
- IBM Qiskit Panel --Running Experiments on more than 100 Qubits (Roland Farell, IQuS) -
- A quantum simulation scheme and equilibration/thermalization physics of the Sachdev-Ye-Kitaev (SYK) model (Soumik Bandyopadhyay, University of Trento,) -
- State preparation in quantum simulations of lattice gauge theories (Chris Kane, University of Arizona) -
- Scalable Circuits for Preparing Ground States on Digital Quantum Computers: The Schwinger Model Vacuum on 100 Qubits (Marc Illa, IQuS) -
- From qubits to qutrits: entanglement of astrophysical neutrinos (A.B. Balantekin) -
- Quantum scars and regular eigenstates in chaotic spinor condensates (Ceren Dag (Harvard)) -
- Speed Limits on the Propagation of Quantum Information (Alexey Gorshkov (UMD, NIST)) -
- TBA (Anatoli Polkovnikov (Boston University)) -
- Open quantum system dynamics within the Schwinger model (Felix Ringer (Old Dominion University)) -
- The scent of Eigenstate Thermalization in hadronic collisions at high multiplicity (Rob Pisarski (Brookhaven Nat'l Lab)) -
- Learning conservation laws in unknown quantum dynamics (Andreas Elben (Caltech)) -
- Quantum Simulation with Ultracold Atoms – From Hubbard Models to Gauge Theories (Monika Aidelsburger (MPI for Quantum Optics, LMU Munich)) -
- Real-time non-perturbative dynamics of jet production in Schwinger model: quantum entanglement and vacuum modification (Adrien Florio (Brookhaven Nat'l Lab)) -
- What can quantum thermodynamics do for you? (Nicole Yunger Halpern (UMD, NIST)) -
- Thermodynamics of oscillating neutrinos (Luke Johns (UC Berkeley)) -
- Perspectives from the Lattice (Alexei Bazavov (Michigan State)) -
- Prospects of correlated electron-photon systems for quantum simulation (Mohammad Hafezi (UMD, NIST)) -
- Transport and thermal equilibrium in spin quantum simulators (Alex Schuckert (UMD)) -
- The quantum thermalization and its time-scales of Neutrinos qua Heisenberg Interactions (Duff Neill (LANL)) -
- Quantum simulating the real-time dynamics of q-deformed gauge theories (Torsten Zache (Innsbruck)) -
- Effective Field Theories for hot relativistic plasmas (Cristina Manuel (CSIC-IEEC Barcelona)) -
- What ultracold atoms can tell us about the real-time dynamics of QCD in extreme conditions (Jürgen Berges (Heidelberg)) -
- Thermalization, from Cold Atoms to Hot Quantum Chromodynamics (See description for more information) - , , , , , , , , , , ,
- False vacuum decay in quantum spin chains (Federica Surace (Caltech)) -
- Thermalization, Opening discussion: what are the interesting problems? (Mark Srednicki (UCSB)) -
- Optical tweezer arrays of neutral Yb atoms: an exciting platform for quantum simulations of nuclear physics (Michael Bishof, Argonne National Lab) -
- Quantum Error Correction (Victor Albert, University of Maryland & NIST) -
- Entanglement entropies in nuclear systems (Thomas Papenbrock, University of Tennessee) -
- Efficient Adaptive Variational Quantum Algorithms (Sophia Economou, Virginia Tech) -
- Loop-string-hadron formulation of an SU(3) gauge theory with dynamical quarks (Jesse Stryker, University of Maryland) -
- Neural Error Mitigation of Near-Term Quantum Simulations (Elizabeth Bennewitz, UMD) -
- Implementing a Z2 Lattice Gauge Theory in a Digital Quantum Simulator (Julius Mildenberger, University of Trento) -
- TBA (Annabelle Bohrdt, Harvard) -
- Demonstration of algorithmic quantum speedup (Daniel Lidar, University of Southern California) -
- Quantum simulation of lattice gauge theories with ultracold atoms (Federica Surace, Caltech) -
- Entanglement Witnessing for Lattice Gauge Theories (Veronica Panizza, Ricardo Costa de Almeida, Univ. of Trento) -
- Topological aspects of non-Hermitian skin effects (Masatoshi Sato, Kyoto University) -
- Generalized hydrodynamics, local prethermalization, and hydrodynamization in ultracold 1D gases (Marcos Rigol, Penn State) -
- Parton distributions and quantum entanglement (Dmitri Kharzeev, Stony Brook University/Brookhaven National Laboratory) -
- Efficient Fully-Coherent Quantum Signal Processing Algorithms for Real-Time Dynamics Simulation (Yuan Liu, MIT) -
- N-body interactions between trapped ion spins (Or Katz, Duke University) -
- Self-mitigating Trotter circuits for SU(2) lattice gauge theory on a quantum computer (Sarah Powell, York University) -