Format results
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String Theory Review - Lecture 15
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:11030113 -
String Theory Review - Lecture 14
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:11030007 -
String Theory Review - Lecture 13
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:11030006 -
String Theory Review - Lecture 12
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:11030005 -
String Theory Review - Lecture 11
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:11030004 -
String Theory Review - Lecture 10
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:11020062 -
String Theory Review - Lecture 9
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:11020059 -
String Theory Review - Lecture 8
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:11020058
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Explorations in Quantum Information - Lecture 14
David Cory Institute for Quantum Computing (IQC)
PIRSA:11030029 -
Explorations in Quantum Information - Lecture 13
David Cory Institute for Quantum Computing (IQC)
PIRSA:11030028 -
Explorations in Quantum Information - Lecture 12
David Cory Institute for Quantum Computing (IQC)
PIRSA:11030027 -
Explorations in Quantum Information - Lecture 11
David Cory Institute for Quantum Computing (IQC)
PIRSA:11030026 -
Explorations in Quantum Information - Lecture 10
David Cory Institute for Quantum Computing (IQC)
PIRSA:11030023 -
Explorations in Quantum Information - Lecture 9
David Cory Institute for Quantum Computing (IQC)
PIRSA:11030022 -
Explorations in Quantum Information - Lecture 8
David Cory Institute for Quantum Computing (IQC)
PIRSA:11030021 -
Explorations in Quantum Information - Lecture 7
David Cory Institute for Quantum Computing (IQC)
PIRSA:11030020
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Explorations in Cosmology - Lecture 8
PIRSA:11040012 -
Explorations in Cosmology - Lecture 7
PIRSA:11040011
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Some Ideas (not to try!) on Quantum Gravity Phenomenology
Karan Jani Pennsylvania State University
PIRSA:10080044 -
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Summer Undergraduate Research Talks - 2010
Jose Tomas Galvez Ghersi Universidad de Ingeniería y Tecnología
PIRSA:10080023
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Review on Proposed Models for Dark Energy 2
Ghazal Geshnizjani Perimeter Institute for Theoretical Physics
PIRSA:10050012 -
Review on Proposed Models for Dark Energy 1
Ghazal Geshnizjani Perimeter Institute for Theoretical Physics
PIRSA:10050011 -
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Generation of Perturbations During Inflation
Adrienne Erickcek University of North Carolina at Chapel Hill
PIRSA:10040078 -
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Cosmological Perturbation Theory
Adrienne Erickcek University of North Carolina at Chapel Hill
PIRSA:10040076 -
Review of FRW Spacetime and Inflation
Adrienne Erickcek University of North Carolina at Chapel Hill
PIRSA:10040075
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Beyond the Standard Model Physics and the LHC (Lecture 2)
James Wells University of Michigan–Ann Arbor
PIRSA:10040024 -
Beyond the Standard Model Physics and the LHC (Lecture 1)
James Wells University of Michigan–Ann Arbor
PIRSA:10030062
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Lecture 5: Surface operators in N=2 theories: Generalized SW geometry, 2d-4d wallcrossing
Davide Gaiotto Perimeter Institute for Theoretical Physics
PIRSA:10020077 -
Lecture 4: Line Operators in N=2 Gauge Theories: wallcrossing, relation to Hitchin systems
Davide Gaiotto Perimeter Institute for Theoretical Physics
PIRSA:10020076 -
Lecture 3: 6d Engineering of N=2 theories. S-dualities
Davide Gaiotto Perimeter Institute for Theoretical Physics
PIRSA:10020075 -
Lecture 2: SW solution of gauge theory with matter
Davide Gaiotto Perimeter Institute for Theoretical Physics
PIRSA:10020074 -
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Aspects of Moduli in String Compactifications - Lecture 3
Joseph Conlon University of Oxford
PIRSA:10010101 -
Aspects of Moduli in String Compactifications - Lecture 2
Joseph Conlon University of Oxford
PIRSA:10010100 -
Aspects of Moduli in String Compactifications - Lecture 1
Joseph Conlon University of Oxford
PIRSA:10010099
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Foundations and Interpretation of Quantum Theory - Lecture 21
Vladimir Manucharyan Harvard University
PIRSA:10040017 -
Foundations and Interpretation of Quantum Theory - Lecture 20
Michel Devoret Yale Univeristy - Department of Applied Physics
PIRSA:10030008 -
Foundations and Interpretation of Quantum Theory - Lecture 19
Anthony Leggett University of Illinois Urbana-Champaign
PIRSA:10030025 -
Foundations and Interpretation of Quantum Theory - Lecture 18
Anthony Leggett University of Illinois Urbana-Champaign
PIRSA:10030007 -
Foundations and Interpretation of Quantum Theory - Lecture 17
Lev Vaidman Tel Aviv University
PIRSA:10030024 -
Foundations and Interpretation of Quantum Theory - Lecture 16
Lev Vaidman Tel Aviv University
PIRSA:10030006 -
Foundations and Interpretation of Quantum Theory - Lecture 15
Chris Fuchs University of Massachusetts Boston
PIRSA:10030023 -
Foundations and Interpretation of Quantum Theory - Lecture 14
Chris Fuchs University of Massachusetts Boston
PIRSA:10030005
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High energy scattering
Joao Penedones L'Ecole Polytechnique Federale de Lausanne (EPFL)
PIRSA:09110029
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10/11 PSI - Explorations in Quantum Information
Explorations in Quantum Information -
10/11 PSI - Explorations in Cosmology
Explorations in Cosmology -
Summer Undergraduate Research Talks - 2010
Summer Undergraduate Research Talks -
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Beyond the Standard Model Physics and the LHC
These three lectures cover several ideas of physics beyond the Standard Model. My focus is on ideas that give a natural stabilization solution to the electroweak scale, which is mysteriously light compared to the gravitational Planck scale. These ideas include supersymmetric field theories, extra dimensions, and Higgs boson physics. I shall describe what I think are the "best bets" among these approaches, and more importantly the ways they can be discerned by experiment. Special emphasis will be on theories that can be confirmed at the Large Hadron Collider (LHC) that is just now starting. -
New Developments in N=2 Supersymmetric Gauge Theories
Minicourse - Davide Gaiotto -
Aspects of Moduli in String Compactifications
Mini course by Joe Conlon -
Quantum Field Theory for Cosmology
This course begins with a thorough introduction to quantum field theory. Unlike the usual quantum field theory courses which aim at applications to particle physics, this course then focuses on those quantum field theoretic techniques that are important in the presence of gravity. In particular, this course introduces the properties of quantum fluctuations of fields and how they are affected by curvature and by gravitational horizons. We will cover the highly successful inflationary explanation of the fluctuation spectrum of the cosmic microwave background - and therefore the modern understanding of the quantum origin of all inhomogeneities in the universe (see these amazing visualizations from the data of the Sloan Digital Sky Survey. They display the inhomogeneous distribution of galaxies several billion light years into the universe. Organizer: Achim Kempf -
Foundations and Interpretation of Quantum Theory
After a review of the axiomatic formulation of quantum theory, the generalized operational structure of the theory will be introduced (including POVM measurements, sequential measurements, and CP maps). There will be an introduction to the orthodox (sometimes called Copenhagen) interpretation of quantum mechanics and the historical problems/issues/debates regarding that interpretation, in particular, the measurement problem and the EPR paradox, and a discussion of contemporary views on these topics. The majority of the course lectures will consist of guest lectures from international experts covering the various approaches to the interpretation of quantum theory (in particular, many-worlds, de Broglie-Bohm, consistent/decoherent histories, and statistical/epistemic interpretations, as time permits) and fundamental properties and tests of quantum theory (such as entanglement and experimental tests of Bell inequalities, contextuality, macroscopic quantum phenomena, and the problem of quantum gravity, as time permits). Organizers: Raymond Laflamme and Joseph Emerson -
Scattering in AdS and CFT correlation functions
Non credit PI mini-course -
General Relativity for Cosmology
This course begins by introducing the differential geometry of Lorentzian manifolds from scratch and then builds up quickly to the advanced framework in terms of differential forms and the vielbein formalism. These methods are then used to define general relativity, also as a gauge theory. We then study some of general relativity's deeper properties, such as the formalism of spinors, and aspects of the causal structure and singularities. One key goal is to lay the foundations for students who wish to proceed to studies in quantum gravity. We then apply general relativity to cosmological models and to cosmological perturbation theory. Thereby, we are covering the theory of cosmic inflation which is very successful in predicting, in particular, the properties cosmic microwave background radiation.