Search results from PIRSA
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PSI 2019/2020 - Lie Groups and Lie Algebras - Lecture 7
Tibra Ali Perimeter Institute for Theoretical Physics
PIRSA:19080051 -
PSI 2019/2020 - Lie Groups and Lie Algebras - Lecture 6
Tibra Ali Perimeter Institute for Theoretical Physics
PIRSA:19080050 -
PSI 2019/2020 - Lie Groups and Lie Algebras - Lecture 5
Tibra Ali Perimeter Institute for Theoretical Physics
PIRSA:19080049 -
PSI 2019/2020 - Lie Groups and Lie Algebras - Lecture 4
Tibra Ali Perimeter Institute for Theoretical Physics
PIRSA:19080048 -
PSI 2019/2020 - Lie Groups and Lie Algebras - Lecture 3
Tibra Ali Perimeter Institute for Theoretical Physics
PIRSA:19080046 -
PSI 2019/2020 - Lie Groups and Lie Algebras - Lecture 2
Tibra Ali Perimeter Institute for Theoretical Physics
PIRSA:19080045 -
PSI 2019/2020 - Lie Groups and Lie Algebras - Lecture 1
Tibra Ali Perimeter Institute for Theoretical Physics
PIRSA:19080044
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Symmetries and Dualities of Abelian TQFTs
Jaume Gomis Perimeter Institute for Theoretical Physics
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TBD
Leonardo Rastelli Stony Brook University
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Universality at large transverse spin in defect CFTs
Madalena Lemos European Organization for Nuclear Research (CERN)
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Domain Walls in Super-QCD
Francesco Benini SISSA International School for Advanced Studies
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Weyl Anomaly Induced Current and Holography
Rong-Xin Miao Sun Yat-sen University
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Wilson line impurities, flows and entanglement entropy
Prem Kumar Swansea University
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Anomalies in the Space of Coupling Constants
Nathan Seiberg Institute for Advanced Study (IAS)
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CFT amplitudes
Marc Gillioz SISSA International School for Advanced Studies
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Flux Tube S-matrix Bootstrap
Andrea Guerrieri European Organization for Nuclear Research (CERN)
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Precision Islands for ABJM theory from Mixed Correlator Bootstrap
Shai Chester Weizmann Institute of Science Canada
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Spinning Conformal Bootstrap in 4d
Denis Karteev L'Ecole Polytechnique Federale de Lausanne (EPFL)
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Talk 21 via live stream
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Walter Landry California Institute of Technology
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David Simmons-Duffin Institute for Advanced Study (IAS)
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Why is time always moving forwards and never backwards?
Marina Cortes Institute for Astrophysics and Space Sciences
PIRSA:19070075
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Simulating Thermal and Quantum Fluctuations in Materials and Molecules
Michele Ceriotti L'Ecole Polytechnique Federale de Lausanne (EPFL)
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How to use a Gaussian Boson Sampler to learn from graph-structured data
Maria Schuld University of KwaZulu-Natal
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Machine learning meets quantum physics
Dong-Ling Deng Tsinghua University
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Engineering Programmable Spin Interactions in a Near-Concentric Cavity
Emily Davis Stanford University
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Alleviating the sign structure of quantum states
Giacomo Torlai Flatiron Institute
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Navigating the quantum computing field as a high school student
Tanisha Bassan The Knowledge Society
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Lecture 1: Factorization Algebras and the General Structure of QFT
Philsang Yoo Seoul National University
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Lecture 1: Supersymmetric Quantum Mechanics and All That
Mathew Bullimore Durham University
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TA Session: 0d QFT and Feynman diagrams
Theo Johnson-Freyd Dalhousie University
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Lecture 1: Boundary Conditions and Extended Defects
Davide Gaiotto Perimeter Institute for Theoretical Physics
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Lecture 2: Factorization Algebras and the General Structure of QFT
Kevin Costello Perimeter Institute for Theoretical Physics
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TA Session: Supersummetry Algebras
Chris Elliott University of Massachusetts Amherst
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Lecture 3: Factorization Algebras and the General Structure of QFT
Philsang Yoo Seoul National University
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Lecture 2: Supersymmetric Quantum Mechanics and All That
Mathew Bullimore Durham University
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PSI 2019/2020 - Classical Physics (Kubiznak)
PSI 2019/2020 - Classical Physics (Kubiznak) -
PSI 2019/2020 - Classical Physics (Kubiznak)
PSI 2019/2020 - Classical Physics (Kubiznak) -
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Dynamics and Black Hole Imaging
With the advent of black hole imaging, we are now moving forward to black hole cinema. This workshop aims to collect the expertise across the Event Horizon Telescope Collaboration to develop, implement and apply methods to access and interpret variability in M87 and Sgr A*. The goal is to lay the foundation for the first publications based on black hole movies.
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PSI 2019/2020 - Lie Groups and Lie Algebras (Ali)
PSI 2019/2020 - Lie Groups and Lie Algebras (Ali) -
PSI 2019/2020 - Lie Groups and Lie Algebras (Ali)
PSI 2019/2020 - Lie Groups and Lie Algebras (Ali) -
Boundaries and Defects in Quantum Field Theory
Boundaries and defects play central roles in quantum field theory (QFT) both as means to make contact with nature and as tools to constrain and understand QFT itself. Boundaries in QFT can be used to model impurities and also the finite extent of sample sizes while interfaces allow for different phases of matter to interact in a controllable way. More formally these structures shed light on the structure of QFT by providing new examples of dualities and renormalization group flows. Broadly speaking this meeting will focus on three areas: 1) formal and applied aspects of boundary and defect conformal field theory from anomalies and c-theorems to topological insulators 2) supersymmetry and duality from exact computations of new observables to the construction of new theories and 3) QFT in curved space and gravity from holographic computations of entanglement entropy to ideas in quantum information theory. Registration for this event is now open.
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Bootstrap 2019
Quantum field theory (QFT) is a universal language for theoretical physics describing the Standard Model gravity early universe inflation and condensed matter phenomena such as phase transitions superconductors and quantum Hall fluids. A triumph of 20th century physics was to understand weakly coupled QFTs: theories whose interactions can be treated as small perturbations of otherwise freely moving particles. However weakly coupled QFTs represent a tiny island in an ocean of possibilities. They cannot capture many of the most interesting and important physical phenomena from the strong nuclear force to high temperature superconductivity.The critical challenge for the 21st century is to understand and solve strongly coupled QFTs. Meeting this challenge will require new physical insight new mathematics and new computational tools. Our collaboration combines deep knowledge of novel non-perturbative techniques with a concrete plan for attacking the problem of strong coupling. The starting point is the astonishing discovery that in numerous physical systems there is a unique quantum field theory consistent with general principles of symmetry and quantum mechanics. By analyzing the full implications of these general principles one can make sharp predictions for physical observables without resorting to approximations.This strategy is called the Bootstrap the topic of this three week program.
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Machine Learning for Quantum Design
Machine learning techniques are rapidly being adopted into the field of quantum many-body physics including condensed matter theory experiment and quantum information science. The steady increase in data being produced by highly-controlled quantum experiments brings the potential of machine learning algorithms to the forefront of scientific advancement. Particularly exciting is the prospect of using machine learning for the discovery and design of quantum materials devices and computers. In order to make progress the field must address a number of fundamental questions related to the challenges of studying many-body quantum mechanics using classical computing algorithms and hardware. The goal of this conference is to bring together experts in computational physics machine learning and quantum information to make headway on a number of related topics including: Data-drive quantum state reconstruction Machine learning strategies for quantum error correction Neural-network based wavefunctions Near-term prospects for data from quantum devices Machine learning for quantum algorithm discovery Registration for this event is now closed
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