Search results from PIRSA
Format results
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Talk
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Toughest Student Questions: Dr. David Marsh
PIRSA:15070074 -
Keynote: What's the latest on the LHC?
PIRSA:15070072 -
Keynote: Soap, Water, and Gravity
PIRSA:15070071
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Welcome & Overview
PIRSA:15060025 -
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Dirac Observables in Chaotic Systems
Philipp Hoehn Okinawa Institute of Science and Technology Graduate University
PIRSA:15060050 -
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Aharonov meets Spekkens: What do quantum paradoxes tell us about the nature of reality?
Matthew Leifer Chapman University
PIRSA:15060036 -
General Probability theories: from classical to quantum
Lucien Hardy Perimeter Institute for Theoretical Physics
PIRSA:15060037
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Talk
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Welcome to Convergence - Opening Panel: Physics Today
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Neil Turok University of Edinburgh
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Ivan Semeniuk The Globe and Mail
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Freddy Cachazo Perimeter Institute for Theoretical Physics
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Matthew Fisher University of California, Santa Barbara
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Natalia Toro Stanford University
PIRSA:15060045 -
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The richness of particle physics
Maria Spiropulu California Institute of Technology (Caltech) - Division of Physics Mathematics & Astronomy
PIRSA:15060044 -
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Cause and Effect in a Quantum World
Robert Spekkens Perimeter Institute for Theoretical Physics
PIRSA:15060039 -
Quantum Information in the 21st Century
John Preskill California Institute of Technology (Caltech) - Division of Physics Mathematics & Astronomy
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Exploring the Warped Side of the Universe
Nergis Mavalvala Massachusetts Institute of Technology (MIT) - Department of Physics
PIRSA:15060020 -
Emmy Noether: Her life, work, and influence
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Ruth Gregory King's College London
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Peter Olver University of Minnesota - School of Mathematics
PIRSA:15060040 -
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Probing and Controlling Quantum Matter in Artificial Crystals of Light
Immanuel Bloch Ludwig-Maximilians-Universität München (LMU) - Arnold Sommerfeld Center for Theoretical Physics
PIRSA:15060023
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Talk
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Welcome and Opening Remarks
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Ruxandra Moraru University of Waterloo
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Alberto Garcia-Raboso University of Toronto
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Marco Gualtieri University of Toronto
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Scattering Amplitudes and Riemann Surfaces
Freddy Cachazo Perimeter Institute for Theoretical Physics
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Introduction to exact WKB analysis I
Kohei Iwaki Nagoya University
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Buildings, WKB analysis, and spectral networks
Pranav Pandit Technische Universität Wien
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Topological Recursion for Higgs Bundles and Cohomological Field Theory
Olivia Dumitrescu University of California System
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Scattering Amplitudes and Riemann Surfaces
Freddy Cachazo Perimeter Institute for Theoretical Physics
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Introduction to exact WKB analysis II
Kohei Iwaki Nagoya University
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Buildings, WKB analysis, and spectral networks.
Pranav Pandit Technische Universität Wien
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Talk
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Unruh-DeWitt detectors in RQI: from the basics to frontiers
PIRSA:15050110 -
Unruh-DeWitt detectors in RQI: from the basics to frontiers
PIRSA:15050109 -
Unruh-DeWitt detectors in RQI: from the basics to frontiers
Yidun Wan Fudan University
PIRSA:15050106
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Talk
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Indefinite causal order in quantum mechanics
Časlav Brukner Institute for Quantum Optics and Quantum Information (IQOQI) - Vienna
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Agency, causal structure and locality in Qbism
Ruediger Schack University of London
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Towards an information-theoretic foundation of (quantum) thermodynamics
Giulio Chiribella University of Hong Kong (HKU)
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The second laws of quantum thermodynamics
Jonathan Oppenheim University College London
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Entropy, majorization, and thermodynamics in general probabilistic theories.
Howard Barnum University of New Mexico
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Limitations of statistical mechanics for quantum thermodynamics.
David Jennings Imperial College London
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Information and the architecture of quantum theory
Philipp Hoehn Okinawa Institute of Science and Technology Graduate University
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SD@Convergence - A Shape Dynamics Workshop
SD@Convergence - A Shape Dynamics Workshop -
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Preparing for the High-Luminosity Run of the LHC
Preparing for the High-Luminosity Run of the LHC -
Non-commutative geometry and physics
Non-commutative geometry and physics -
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Unruh-DeWitt detectors in RQI: from the basics to frontiers
In relativistic quantum information (RQI) we study quantum information in relativistic systems to obtain more insights to both quantum and gravitational physics on the one hand, and to find new ideas for quantum information processing on the other. One of the popular models in RQI is the Unruh-DeWitt (UD) detector theory, in which localized objects, called detectors, are coupled to and moving in relativistc quantum fields. In this mini-course I will discuss the UD detector theory in detail, mainly on the nonperturbative methods and their applications to RQI.
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Information Theoretic Foundations for Physics
Information Theoretic Foundations for Physics