Format results
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Talk
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High energy scattering
Joao Penedones L'Ecole Polytechnique Federale de Lausanne (EPFL)
PIRSA:09110029
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Talk
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Horava gravity and strong coupling
Paul Saffin University of Nottingham
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Quantum gravity without Lorentz invariance
Silke Weinfurtner University of Nottingham
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CDT and Horava-Lifshitz gravity
Jan Ambjorn University of Copenhagen
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A "healthy" proposal for non-relativistic quantum gravity
Diego Blas Universitat Autònoma de Barcelona
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Cuscuton and Horava-Lifshitz gravity
Niayesh Afshordi University of Waterloo
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Background Cosmology and Cosmological Perturbations in Horava-Lifshitz Gravity
Robert Brandenberger McGill University - Department of Physics
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Horava-Lifshitz gravity: What's the matter?
Gianluca Calcagni Max Planck Institute for Gravitational Physics - Albert Einstein Institute (AEI)
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Talk
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Gravitational average action and asymptotic safety: past and future
Martin Reuter Johannes Gutenberg University Mainz
PIRSA:09110040 -
Asymptotic safety: a review
PIRSA:09110041 -
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Asymptotic safety and deformed symmetry
Lee Smolin Perimeter Institute for Theoretical Physics
PIRSA:09110044 -
Nonperturbative Insights from Causal Dynamical Triangulations
Renate Loll Radboud Universiteit Nijmegen
PIRSA:09110045 -
Gravitational fixed points and asymptotic safety from perturbation theory
Max Niedermaier University of Pittsburgh
PIRSA:09110046
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Talk
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Current state of ATLAS and the LHC
William Trischuk University of Toronto
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Determining Z' couplings using LHC data and low energy measurements
Frank Petriello University of Wisconsin–Madison
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Charged Higgs phenomenology beyond the MSSM
Heather Logan Carleton University
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Photon identification with the ATLAS detector
Bertrand Brelier University of Toronto
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Preparations for ATLAS Searches
Pierre Savard University of Toronto
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Light Octet Scalars, a Heavy Higgs and Minimal Flavour Violation
Saba Zuberi University of Toronto
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Measurement of Azimuthal De-correlations in DiJet Events
Gabe Rosenbaum University of Toronto
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Talk
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Q2C Wrap - Up
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Raymond Laflamme Institute for Quantum Computing (IQC)
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Neil Turok University of Edinburgh
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Wilson da Silva Cosmos Magazine
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Lecture Series presented by KPMG - Quantum Foundations: From Plato's Cave to Bertlmann's Socks
Robert Spekkens Perimeter Institute for Theoretical Physics
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Lecture Series presented by KPMG - The Physics of Innovation
Richard Epp University of Waterloo
PIRSA:09100030 -
Communicating Science in the 21st Century
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Ivan Semeniuk The Globe and Mail
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Véronique Morin Télé-Québec
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Kathryn O'Hara Carleton University
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Chad Orzel Uncertain Principles
PIRSA:09100071 -
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Worlds Beyond Earth
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Ivan Semeniuk The Globe and Mail
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John Grant Smithsonian Institution
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Ralf Gellert University of Guelph
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Sabine Stanley University of Toronto
PIRSA:09100008 -
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Lecture Series presented by KPMG - Whole Earth Discipline
Stewart Brand Long Now Foundation
PIRSA:09100073 -
Lecture Series presented by KPMG- Mathematical Art and Artistic Mathematicians
Craig Kaplan University of Waterloo
PIRSA:09100078
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Talk
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Confusing Ontic and Epistemic Causes Trouble in Classical Physics Too
N. David Mermin Cornell University
PIRSA:09090077 -
The Statistical Interpretation of Quantum Mechanics and its Relation to Probability Theory
Leslie Ballentine Simon Fraser University (SFU)
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The reflection principle and quantum Bayesian decoherence
Ruediger Schack University of London
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Does knowing my lambda mean knowing my psi?
Terry Rudolph Imperial College London
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What are the costs of dealing with "states of reality" in quantum theory?
Časlav Brukner Institute for Quantum Optics and Quantum Information (IQOQI) - Vienna
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A Pilot Wave(s) Theory of Exclusively Local Beables
Travis Norsen Emerson College
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Talk
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Talk
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Introduction to Effective Field Theory - Lecture 12
Cliff Burgess McMaster University
PIRSA:09120006 -
Introduction to Effective Field Theory - Lecture 10B
Cliff Burgess McMaster University
PIRSA:09110018 -
Introduction to Effective Field Theory - Lecture 10
Cliff Burgess McMaster University
PIRSA:09110014 -
Introduction to Effective Field Theory - Lecture 9C
Cliff Burgess McMaster University
PIRSA:09110137 -
Introduction to Effective Field Theory - Lecture 9B
Cliff Burgess McMaster University
PIRSA:09110017 -
Introduction to Effective Field Theory - Lecture 9A
Cliff Burgess McMaster University
PIRSA:09110013 -
Introduction to Effective Field Theory - Lecture 8C
Cliff Burgess McMaster University
PIRSA:09110133 -
Introduction to Effective Field Theory - Lecture 8B
Cliff Burgess McMaster University
PIRSA:09110016
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Talk
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Quantum Cryptography
Daniel Gottesman University of Maryland, College Park
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Adventures with Superstrings
Robert Myers Perimeter Institute for Theoretical Physics
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Talk
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Quantum Mechanics as a Theory of Systems with Limited Information Content
Časlav Brukner Institute for Quantum Optics and Quantum Information (IQOQI) - Vienna
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The quantum logical reconstruction from Rovelli's axioms and its limits
Alexei Grinbaum CEA Saclay
PIRSA:09080003 -
Quantum Theory from Entropic Inference
Ariel Caticha State University of New York (SUNY)
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Exact uncertainty, quantum mechanics and beyond
Michael Hall Physikalisch-Technische Bundesanstalt (PTB)
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Exact uncertainty, bosonic fields, and interacting classical-quantum systems
Marcel Reginatto Physikalisch-Technische Bundesanstalt (PTB)
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The power of epistemic restrictions in reconstructing quantum theory
Robert Spekkens Perimeter Institute for Theoretical Physics
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Why Quantum Theory is Complex
Philip Goyal State University of New York (SUNY)
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Talk
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Quantum Physics
Lucien Hardy Perimeter Institute for Theoretical Physics
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Adventures with Superstrings
Robert Myers Perimeter Institute for Theoretical Physics
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Talk
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Scattering in AdS and CFT correlation functions
Non credit PI mini-course -
Gravity at a Lifshitz Point - 2009
Gravity at a Lifshitz Point -
Asymptotic Safety-30 Years After - 2009
Asymptotic Safety-30 Years After -
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Quantum to Cosmos Festival - 2009
Quantum to Cosmos Festival -
PIAF 09' New Perspectives on the Quantum State
PIAF 09' New Perspectives on the Quantum State -
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. -
Reconstructing Quantum Theory - 2009
Reconstructing Quantum Theory -