Seminars
Seminars
Upcoming Events
Varun Vaidya - University of South Dakota
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PAT C-421
Enrico Pajer - University of Cambridge
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PAT C-421
Thomas Colas - University of Cambridge
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PAT C-421
Alexander Karl Rothkopf - Korea University
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PAT C-421
Alex Buchel - Western University/Perimeter Institute
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PAT C-421
Jerome Lloyd, University of Geneva
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Virtual (Zoom link in abstract)
Soo-Jong Rey - Kwangwoon University
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PAT C-421
Peter Krogstrup, Niels Bohr Institute
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PAT C520
Pol Bernard Gossiaux - IMT Atlantique
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PAT C-421
Past Events
- Excitons in the Fractional Quantum Hall Effect ( Naiyuan (James) Zhang, Brown University) -
- Revisiting Standard-Model-induced EDMs (Maxim Pospelov, University of Minnesota) -
- Moiré Physics in Graphene Layers – What’s the “Magic”? (Mei-Yin Chou, Academia Sinica, Taiwan ) -
- Novel aspects of fractionalization in Chern bands (Ahmed Abouelkomsan, MIT) -
- TBA (Lena Funcke, University of Bonn) -
- Visualizing incommensurate inter-valley coherent states in rhombohedral trilayer graphene (Ambikesh Gupta (Weizmann Institute)) -
- Large-scale pretraining on neural data allows for transfer across individuals, tasks and species (Eva Dyer, Georgia Institute of Technology) -
- Thermodynamic computing for AI applications (Patrick Coles, Chief Scientist at Normal Computing) -
- New Pathways to Topological Flat Bands, and Novel Fractional Quantum Anomalous Hall States in moire systems (Xiaohan Wan (University of Michigan)) -
- From Hadronization to Strong CP: A Charcuterie Platter of QCD Matter (Zhiquan Sun) -
- Shining axions through astrophysical walls (Benjamin Safdi, UC Berkeley) -
- Tunable Luttinger Liquid in van der Waals Heterostructures (Tianle Wang, UC Berkeley) -
- Nonlinear magnonics in canted antiferromagnets (Zhuquan Zhang, MIT) -
- Sliding ferroelectricity in stacking-engineered van der Waals materials (Xirui Wang, MIT) -
- Magnons as a Window into Spin Transport and Twist-induced Phenomena in a van der Waals Antiferromagnet (Yue Sun, UC Berkeley) -
- Universal Euler-Cartan Circuits for Quantum Field Theories (Ananda Roy, Rutgers University) -
- Searching for the Quantum Universe (Arsalan Adil, UC Davis) -
- Unveiling Dark Matter through Gravitational Waves (Yue Zhao, University of Utah) -
- Hunting the Unexpected: Anomaly Detection and Real-Time Triggers at the Large Hadron Collider (Jennifer Ngadiuba, Fermilab) -
- Quantum simulation of materials in extreme conditions (Andrew Baczewski, Sandia National Lab) -
- Higgs physics with Neural Simulation-Based Inference at the LHC and in ALTAS (Aishik Ghosh, UC Irvine and Berkeley Lab) -
- The Rich Phenomenology of Confining Dark Sector - Abundance and Detection (Pouya Asadi, University of Oregon) -
- Geometric Response of Generalized Landau Levels and Moire Materials (Jie Wang, Temple University) -
- Low-energy photodisintegration of light nuclei in Halo EFT (Winfried Leidemann, Università di Trento) -
- Fault Tolerance with Dynamical Codes (Daniel Gottesmann, University of Maryland) -
- Three-body dynamics via lattice QCD: a review and outlook (Raul Briceno, UC Berkeley) -
- Relativistic three particle scattering amplitudes with non zero angular momentum (Caroline Silva Rocha Costa, Jefferson Lab) -
- Big Bang Nucleosynthesis: New Physics and New Tools (Cara Giovanetti, New York University) -
- Exploring universality with a many-body density functional (Giuseppina Orlandini, Università di Trento) -
- Effective description of shallow states and the three-body parameter (Alejandro Kievsky, INFN) -
- An adiabatic hyperspherical approach to few-body systems in Atomic and nuclear Physics (Michael Higgins, Purdue University) -
- Lepton-neutron interaction and low energy scattering (Jaume Carbonell, Université Paris-Saclay & IJCLAB) -
- Quantum Networks Using Single Rare‐Earth Ions (Sophie Hermans, Caltech/TU Delft) -
- Antiproton-nucleus annihilation in optical models (Pierre-Yves Duerinck, University libre de Bruxelles) -
- 24-3 Program Talk (Chris Greene, Purdue University) -
- Surrogate Constructed Scalable Circuits ADAPT-VQE: A state preparation method for lattice field theories (Erik J. Gustafson, Research Institute for Advanced Computer Science, Mountain View) -
- Universal or not? EFT insights into two-neutron halos and Lithium-6 (Daniel Phillips, The Ohio University) -
- Confinement-induced unatomic trimers (Tobias Frederico, Instituto Tecnológico de Aeronáutica) -
- Information, Chaos, and Black Holes: the Central Dogma (Chih-Hung Wu, University of Washington) -
- Exploring fundamental physics with quantum information science (J. M. Taylor, JQI/QuICS/NIST) -
- Schrödinger-symmetry deformations at large-charge (Silas Beane, University of Washington) -
- Discrete scale invariance in charged particles (Yusuke Nishida, Tokyo Institute of Technology) -
- Nonrelativistic conformal field theory and nuclear reactions (Dam Thanh Son, University of Chicago) -
- Halo nuclei and multi-neutron correlations (Hans-Werner Hammer, TU Darmstadt) -
- Solitonic mBEC bifurcation in momentum space with a shaken lattice (Kaiyue Wang, Georgia Tech) -
- The evaporation of charged black holes (Luca Iliesiu, UC Berkeley) -
- Classical and Quantum Computing of Shear Viscosity for 2+1D SU(2) Gauge Theory (Xiaojun Yao) -
- LEGEND: Search for neutrinoless double beta decay in 76Ge (Louis Varriano, University of Washington) -
- Machine Learning for Ge-Based Neutrinoless Double-Beta Decay (Julieta Gruszko, UNC Chapel Hill ) -
- Quantum Magic and Entanglement in Shell Model Nuclei (Federico Rocco, Bielefeld University) -