Format results
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Talk
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Zeta-regularized vacuum expectation values
Tobias Hartung Deutsches Elektronen-Synchrotron DESY
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Counter-diabatic driving in many-body systems
Dries Sels New York University (NYU)
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Interdisciplinary Seminar: Holographic dualities and tensor renormalization group study of gauge theories
Raghav Govind Jha Thomas Jefferson National Accelerator Facility
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Towards building a Lorentzian space-time tensor network
Ling-Yan Hung Tsinghua University
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TBA
Antoine Tilloy Max Planck Institute for Gravitational Physics - Albert Einstein Institute (AEI)
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Emergent Hyperbolic Network Geometry and Dynamics
Ginestra Bianconi Queen Mary University of London
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Talk
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Talk
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Talk
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Detection of B-mode Polarization at Degree Angular Scales with BICEP2
John Kovac (Harvard University, Cambridge)strings:20141003 -
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The powers of monodromy and the range of r in string theory
Eva Silverstein (Stanford University)strings:20141007 -
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Gravitational turbulent instability of AdS5
Piotr Bizon (Albert Einstein Institute, Potsdam)strings:20141001
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Talk
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Universal aspects of decohered and dissipative quantum many-body systems
Tarun Grover University of California, San Diego
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Realization and Characterization of Topological States on Quantum Processors
Frank Pollmann Technical University of Munich (TUM)
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Anomalously fun: aspects of many-body quantum kinematics
Chong Wang Perimeter Institute for Theoretical Physics
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Stars under Einstein’s microscope: strong gravitational lensing near caustics
Liang Dai University of California, Berkeley
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Tiny universes from ensembles of open quantum systems
Sarah Shandera Pennsylvania State University
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Talk
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LHC results and prospects from a theorist's viewpoint
Fabio Zwirner (University of Padua)strings:20111004 -
Lie Algebra Structures in Yang-Mills and Gravity Amplitudes
Henrik Johansson (Saclay)strings:20111003 -
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Recent Results for Holographic Three-Point Functions
Thomas Klose (Uppsala University)strings:20111002 -
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Multiloop systematics in pure spinor field theory
Michael B. Green (DAMTP, Cambridge)strings:20111001 -
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Talk
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Searching for New Physics in the Late Universe With Millions of Galaxies in Millions of Dimensions - VIRTUAL ONLY
Minh Nguyen University of Michigan–Ann Arbor
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Fundamental Physics from Galaxy Surveys
Mikhail Ivanov Massachusetts Institute of Technology (MIT)
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Neutrino and Dark Radiation Properties from Cosmic Datasets
Marilena LoVerde University of Washington
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Bringing causality to astronomy
Mario Pasquato Mila - Quebec Artificial Intelligence Institute
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Axionic Blue Isocurvature Perturbations: Generation and Astrophysical Detection Forecasts
Sai Chaitanya University of Wisconsin–Madison
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Galaxy Evolution: Gas phases and Feedback
James Wadsley McMaster University
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Talk
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Spontaneous breaking of rotational symmetry in IIB matrix model
Hikaru Kawai (Kyoto)strings:20021004 -
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Solution of N=2 gauge theories via instanton counting
Nikita Nekrasov (IHES \& ITEP)strings:20021008 -
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N=1 dualities and the dynamics of brane anti-brane systems
David Berenstein (IAS, Princeton)strings:20021001 -
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Talk
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Topological Quantum Information, Khovanov Homology and the Jones Polynomial
Louis Kauffman University of Illinois at Chicago
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Talk
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Towards Matter Inflation in Heterotic String Theory
Sebastian Halter Max Planck Institute for Physics, Munich (Werner-Heisenberg-Institut)
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The Eddington Limit in Cosmic Rays
Aristotle Socrates Institute for Advanced Study (IAS)
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Resonant Tunneling in Superfluid Helium-3
Dan Wohns Perimeter Institute for Theoretical Physics
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Talk
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Illuminating the 130 GeV Gamma Line with Continuum Photons
Miriangela Lisanti Princeton University
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Talk
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Scaling Limits of Bayesian Inference with Deep Neural Networks
Boris Hanin Princeton University
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Measure Transport Perspectives on Sampling, Generative Modeling, and Beyond
Michael Albergo New York University (NYU)
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Neural-network quantum states for ultra-cold Fermi gases
Jane Kim Michigan State University (MSU)
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Scalar and Grassmann Neural Network Field Theory
Anindita Maiti Perimeter Institute for Theoretical Physics
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Topological quantum phase transitions in exact two-dimensional isometric tensor networks - VIRTUAL
Yu-Jie Liu Technical University of Munich (TUM)
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Deep Learning Convolutions Through the Lens of Tensor Networks
Felix Dangel Vector Institute for Artificial Intelligence
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Quantum metrology in the finite-sample regime - VIRTUAL
Johannes Meyer Freie Universität Berlin
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Tensor Network
This series consists of occasional seminars on Tensor Networks, ranging from algorithms to their application in condensed matter, quantum gravity, or high energy physics. Each seminar starts with a gentle introduction to the subject under discussion. Everyone is strongly encouraged to participate with questions and comments. -
Colloquium
This series covers all areas of research at Perimeter Institute, as well as those outside of PI's scope. -
Cosmology and Gravitation
This series consists of talks in the area of Cosmology and Gravitation. -
Quantum Information
This series consists of talks in the area of Quantum Information Theory. -
Cosmology Talks
This series consists of discussions in the areas of Cosmology and Particle Physics. -
Particle Group Meeting
This series consists of talks in the area of Condensed Matter. -
Machine Learning Initiative
The adoption of machine learning (ML], into theoretical physics comes on the heels of an explosion of industry progress that started in 2012. Since that time, computer scientists have demonstrated that learning algorithms - those designed to respond and adapt to new data - provide an exceptionally powerful platform for tackling many difficult tasks in image recognition, natural language comprehension, game play and more. This new breed of ML algorithm has now conquered benchmarks previously thought to be decades away due to their high mathematical complexity. In the last several years, researchers at Perimeter have begun to examine machine learning algorithms for application to a new set of problems, including condensed matter, quantum information, numerical relativity, quantum gravity and astrophysics.