Format results
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Talk
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PSI 2019/2020 - Statistical Mechanics (Vieira) - Lecture 14
Pedro Vieira Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Statistical Mechanics (Vieira) - Lecture 13
Pedro Vieira Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Statistical Mechanics (Vieira) - Lecture 12
Pedro Vieira Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Statistical Mechanics (Vieira) - Lecture 11
Pedro Vieira Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Statistical Mechanics (Vieira) - Lecture 10
Pedro Vieira Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Statistical Mechanics (Vieira) - Lecture 9
Pedro Vieira Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Statistical Mechanics (Vieira) - Lecture 8
Pedro Vieira Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Statistical Mechanics (Vieira) - Lecture 7
Pedro Vieira Perimeter Institute for Theoretical Physics
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Talk
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Talk
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PSI 2019/2020 - Relativity (Kubiznak) - Lecture 15
David Kubiznak Charles University
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PSI 2019/2020 - Relativity (Kubiznak) - Lecture 14
David Kubiznak Charles University
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PSI 2019/2020 - Relativity (Kubiznak) - Lecture 13
David Kubiznak Charles University
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PSI 2019/2020 - Relativity (Kubiznak) - Lecture 12
David Kubiznak Charles University
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PSI 2019/2020 - Relativity (Kubiznak) - Lecture 11
David Kubiznak Charles University
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PSI 2019/2020 - Relativity (Kubiznak) - Lecture 10
David Kubiznak Charles University
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PSI 2019/2020 - Relativity (Kubiznak) - Lecture 9
David Kubiznak Charles University
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PSI 2019/2020 - Relativity (Kubiznak) - Lecture 8
David Kubiznak Charles University
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Talk
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PSI 2019/2020 - Quantum Theory (Dupuis) - Lecture 14
Maïté Dupuis Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Theory (Dupuis) - Lecture 13
Maïté Dupuis Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Theory (Dupuis) - Lecture 12
Maïté Dupuis Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Theory (Dupuis) - Lecture 11
Maïté Dupuis Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Theory (Dupuis) - Lecture 10
Maïté Dupuis Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Theory (Dupuis) - Lecture 9
Maïté Dupuis Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Theory (Dupuis) - Lecture 8
Maïté Dupuis Perimeter Institute for Theoretical Physics
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Talk
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On the possible role of nilpotent internal symmetries in unification
Andras Laszlo Wigner Research Centre for Physics
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Rethinking the origin of neutrino masses: the role of gravity
Lena Funcke University of Bonn
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Swampland Constraints on Neutrino Masses and Dark Energy
Irene Valenzuela European Organization for Nuclear Research (CERN)
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Exceptional Quantum Algebra for the Standard Model of Particle Physics
Ivan Todorov Bulgarian Academy of Sciences
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SO(7,7) Structure of Standard Model Fermions
Kirill Krasnov University of Nottingham
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The Standard Model from A Jordan Algebra
Latham Boyle University of Edinburgh
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Particle Theory from Jordan Geometry
Shane Farnsworth University of Regensburg
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Talk
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CPT-Symmetric Universe
Latham Boyle University of Edinburgh
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Brane cosmology and the self-tuning of the cosmological constant
Francesco Nitti Université Paris Cité
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New Physics in the Rayleigh-Jeans tale of the CMB and cosmic 21cm signal
Maxim Pospelov University of Minnesota
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Gravitational waves in the inhomogeneous Universe
Masamune Oguri University of Tokyo
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Discussion: Where in the Cosmos should we look for novel physics?
Elias Kiritsis University of Crete
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Gravitational wave standard sirens
Samaya Nissanke University of Amsterdam
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Cosmology and fundamental physics with FRBs
Ue-Li Pen Canadian Institute for Theoretical Astrophysics (CITA)
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Talk
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PSI 2019/2020 - Math for QFT - Lecture 5
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:19080043 -
PSI 2019/2020 - Math for QFT - Lecture 4
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:19080042 -
PSI 2019/2020 - Math for QFT - Lecture 3
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:19080041 -
PSI 2019/2020 - Math for QFT - Lecture 2
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:19080040 -
PSI 2019/2020 - Math for QFT - Lecture 1
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:19080039
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Talk
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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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Talk
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Talk
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PSI 2019/2020 - Statistical Physics - Lecture 3
David Kubiznak Charles University
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PSI 2019/2020 - Statistical Physics - Lecture 2
David Kubiznak Charles University
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PSI 2019/2020 - Statistical Physics - Lecture 1
David Kubiznak Charles University
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Talk
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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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Talk
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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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PSI 2019/2020 - Quantum Field Theory (Wohns/Xu)
PSI 2019/2020 - Quantum Field Theory (Wohns/Xu) -
PSI 2019/2020 - Statistical Mechanics (Vieira)
PSI 2019/2020 - Statistical Mechanics (Vieira) -
PSI 2019/2020 - Quantum Theory (Branczyk/Dupuis)
PSI 2019/2020 - Quantum Theory (Branczyk/Dupuis) -
PSI 2019/2020 - Relativity (Kubiznak)
PSI 2019/2020 - Relativity (Kubiznak) -
Simplicity III
This cross-disciplinary workshop gathers theorists who have been working on novel approaches to understanding the structure of the Standard Model and its link to cosmology and gravity. It follows the previous Simplicity I and II workshops at Princeton University (2014) and Fermilab (2016) and will be a small informal meeting with plenty of room for discussions.
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Cosmological Frontiers in Fundamental Physics 2019
The workshops focuses on novel frontiers in observational cosmology and astrophysics and how they shed light fundamental questions in understanding the universe. Registration for this workshop is now open.
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PSI 2019/2020 - Classical Physics (Kubiznak)
PSI 2019/2020 - Classical Physics (Kubiznak) -
PSI 2019/2020 - Math for QFT (Wohns)
PSI 2019/2020 - Math for QFT (Wohns) -
PSI 2019/2020 - Lie Groups and Lie Algebras (Ali)
PSI 2019/2020 - Lie Groups and Lie Algebras (Ali) -
PSI 2019/2020 - Statistical Physics (Kubiznak)
PSI 2019/2020 - Statistical Physics (Kubiznak) -
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.