Strong Gravity 2023/24
13
talks
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Collection Number
C24023
Search results for "2023" in Course
25 - 36 of 39 Results
Format results
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Strong Gravity Lecture
Perimeter Institute for Theoretical Physics -
Strong Gravity Lecture
Perimeter Institute for Theoretical Physics -
Strong Gravity Lecture
Perimeter Institute for Theoretical Physics -
Strong Gravity Lecture
Perimeter Institute for Theoretical Physics -
Strong Gravity Lecture
Perimeter Institute for Theoretical Physics -
Strong Gravity Lecture
Perimeter Institute for Theoretical Physics -
Strong Gravity Lecture
Perimeter Institute for Theoretical Physics -
Strong Gravity Lecture
Perimeter Institute for Theoretical Physics
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Quantum Gravity 2023/24
13 talks-Collection NumberC24024Talk
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Quantum Gravity Lecture
Perimeter Institute for Theoretical Physics -
Quantum Gravity Lecture
Perimeter Institute for Theoretical Physics -
Quantum Gravity Lecture
Perimeter Institute for Theoretical Physics -
Quantum Gravity Lecture
Perimeter Institute for Theoretical Physics -
Quantum Gravity Lecture
Perimeter Institute for Theoretical Physics -
Quantum Gravity Lecture
Perimeter Institute for Theoretical Physics -
Quantum Gravity Lecture
Perimeter Institute for Theoretical Physics -
Quantum Gravity Lecture
Perimeter Institute for Theoretical Physics
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String Theory 2023/24
13 talks-Collection NumberC24025Talk
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String Theory Lecture
Perimeter Institute for Theoretical Physics -
String Theory Lecture
Perimeter Institute for Theoretical Physics -
String Theory Lecture
Perimeter Institute for Theoretical Physics -
String Theory Lecture
Perimeter Institute for Theoretical Physics -
String Theory Lecture
Perimeter Institute for Theoretical Physics -
String Theory Lecture
Perimeter Institute for Theoretical Physics -
String Theory Lecture
Perimeter Institute for Theoretical Physics -
String Theory Lecture
Perimeter Institute for Theoretical Physics
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Mathematical Physics 2023/24
13 talks-Collection NumberC24026Talk
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Mathematical Physics Lecture
Perimeter Institute for Theoretical Physics -
Mathematical Physics Lecture
Perimeter Institute for Theoretical Physics -
Mathematical Physics Lecture
Perimeter Institute for Theoretical Physics -
Mathematical Physics Lecture
Perimeter Institute for Theoretical Physics -
Mathematical Physics Lecture
Perimeter Institute for Theoretical Physics -
Mathematical Physics Lecture
Perimeter Institute for Theoretical Physics -
Mathematical Physics Lecture
Perimeter Institute for Theoretical Physics -
Mathematical Physics Lecture
Perimeter Institute for Theoretical Physics
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Machine Learning 2023/24
12 talks-Collection NumberC24027Talk
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Standard Model 2023/24
13 talks-Collection NumberC24006Talk
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QFT III 2023/24
13 talks-Collection NumberC24010Talk
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QFT III Lecture
Perimeter Institute for Theoretical Physics -
QFT III Lecture
Perimeter Institute for Theoretical Physics -
QFT III Lecture
Perimeter Institute for Theoretical Physics -
QFT III Lecture
Perimeter Institute for Theoretical Physics -
QFT III Lecture
Perimeter Institute for Theoretical Physics -
QFT III Lecture
Perimeter Institute for Theoretical Physics -
QFT III Lecture
Perimeter Institute for Theoretical Physics -
QFT III Lecture
Perimeter Institute for Theoretical Physics
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Quantum Matter 2023/24
13 talks-Collection NumberC24011Talk
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Quantum Matter Lecture
Perimeter Institute for Theoretical Physics -
Quantum Matter Lecture
Perimeter Institute for Theoretical Physics -
Quantum Matter Lecture
Perimeter Institute for Theoretical Physics -
Quantum Matter Lecture
Perimeter Institute for Theoretical Physics -
Quantum Matter Lecture
Perimeter Institute for Theoretical Physics -
Quantum Matter Lecture
Perimeter Institute for Theoretical Physics -
Quantum Matter Lecture
Perimeter Institute for Theoretical Physics -
Quantum Matter Lecture
Perimeter Institute for Theoretical Physics
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Statistical Physics (2022/2023)
14 talks-Collection NumberC22038Talk
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Statistical Physics - Lecture 221115
PIRSA:22110012 -
Statistical Physics - Lecture 221116
PIRSA:22110013 -
Statistical Physics - Lecture 221118
PIRSA:22110014 -
Statistical Physics - Lecture 221121
PIRSA:22110015 -
Statistical Physics - Lecture 221123
PIRSA:22110016 -
Statistical Physics - Lecture 221125
PIRSA:22110017 -
Statistical Physics - Lecture 221128
PIRSA:22110018 -
Statistical Physics - Lecture 221130
PIRSA:22110019
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Quantum Fields and Strings (2022/2023)
13 talks-Collection NumberC23010Talk
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Quantum Fields and Strings Lecture - 230301
Perimeter Institute for Theoretical PhysicsPIRSA:23030015 -
Quantum Fields and Strings Lecture - 230302
Perimeter Institute for Theoretical PhysicsPIRSA:23030016 -
Quantum Fields and Strings Lecture - 230306
Perimeter Institute for Theoretical PhysicsPIRSA:23030017 -
Quantum Fields and Strings Lecture - 230308
Perimeter Institute for Theoretical PhysicsPIRSA:23030018 -
Quantum Fields and Strings Lecture - 230310
Perimeter Institute for Theoretical PhysicsPIRSA:23030019 -
Quantum Fields and Strings Lecture - 230313
Perimeter Institute for Theoretical PhysicsPIRSA:23030020 -
Quantum Fields and Strings Lecture - 230315
Perimeter Institute for Theoretical PhysicsPIRSA:23030021 -
Quantum Fields and Strings Lecture - 230320
Perimeter Institute for Theoretical PhysicsPIRSA:23030023
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Mathematical Physics - Elective (2022/2023)
13 talks-Collection NumberC23027Talk
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Quantum Field Theory I (2022/2023)
14 talks-Collection NumberC22036Talk
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Strong Gravity 2023/24
13 talks-Collection NumberC24023This course will introduce some advanced topics in general relativity related to describing gravity in the strong field and dynamical regime. Topics covered include properties of spinning black holes, black hole thermodynamics and energy extraction, how to define horizons in a dynamical setting, formulations of the Einstein equations as constraint and evolution equations, and gravitational waves and how they are sourced. -
Quantum Gravity 2023/24
13 talks-Collection NumberC24024The course centers on an in-depth study of the symmetry structure of General Relativity and how this is intimately related to its dynamics and to the challenges posed to its quantization. To achieve this understanding, we will introduce a host of concepts and techniques, broadly (and loosely) known under the name of “Covariant Phase Space Method”. This provides a different perspective on GR’s physics, a perspective in which phase space, rather than spacetime, is front and center. We will apply these ideas and techniques to discuss the so-called Problem of Time, Wald's approach to black hole entropy as a Noether charge, and the relationship between Dirac's Hypersurface Deformation Algebra and GR's symmetries and dynamics. We will also discuss the problem of detecting single gravitons as well as crucial analogies and differences between a quantum electromagnetic and gravitational field. Lecture notes specific for the course will be provided. -
String Theory 2023/24
13 talks-Collection NumberC24025The course covers the basics of String Theory: bosonic strings, D-branes, a bit of superstrings.
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Mathematical Physics 2023/24
13 talks-Collection NumberC24026We will discuss mathematical aspects of classical and quantum field theory, including topics such as: symplectic manifolds and the phase space, symplectic reduction, geometric quantization, Chern-Simons theory, and others. -
Machine Learning 2023/24
12 talks-Collection NumberC24027Machine learning has become a very valuable toolbox for scientists including physicists. In this course, we will learn the basics of machine learning with an emphasis on applications for many-body physics. At the end of this course, you will be equipped with the necessary and preliminary tools for starting your own machine learning projects. -
Standard Model 2023/24
13 talks-Collection NumberC24006The Standard Model of particle physics is introduced, and reviewed, from a modern effective field theory perspective.
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QFT III 2023/24
13 talks-Collection NumberC24010This survey course introduces some advanced topics in quantum field theory and string theory. Topics may include anomalies, conformal field theory, and bosonic string theory and are subject to change depending on the topics covered in the TBD elective course.
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Quantum Matter 2023/24
13 talks-Collection NumberC24011This course will cover quantum phases of matter, with a focus on long-range entangled states, topological states, and quantum criticality.
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Statistical Physics (2022/2023)
14 talks-Collection NumberC22038The course begins by discussing several topics in equilibrium statistical physics including phase transitions and the renormalization group. The second part of the course covers non-equilibrium statistical physics including kinetics of aggregation, spin dynamics, population dynamics, and complex networks.
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Quantum Fields and Strings (2022/2023)
13 talks-Collection NumberC23010This survey course introduces three advanced topics in quantum fields and strings: anomalies, conformal field theory, and string theory. -
Mathematical Physics - Elective (2022/2023)
13 talks-Collection NumberC23027Title: An introduction to twistors Course Description: Twistor theory, introduced by Penrose many years ago, is a way to reformulate massless fields on four-dimensional space-time in terms of an auxiliary 6-dimensional complex manifold, called twistor space. This course will introduce twistor space and the Penrose correspondence (relating fields on twistor space and space-time), at both classical and quantum levels. We will discuss the twistor realization of self-dual Yang-Mills theory and of self-dual gravity. If time permits we will discuss the connection between twistors and celestial holography.
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Quantum Field Theory I (2022/2023)
14 talks-Collection NumberC22036The course starts by looking for a quantum theory that is compatible with special relativity, without assuming fields are fundamental. Nevertheless fields turn out to be a very good, maybe inevitable mathematical tool for formulating and studying such a relativistic quantum theory. The second part of the course introduces the Dirac theory and canonically quantizes it. It also quantizes the Maxwell field theory. The Feynman diagram technique for perturbation theory is developed and applied to the scattering of relativistic fermions and photons. Renormalization of quantum electrodynamics is done to one-loop order.
Prerequisite: PSI Quantum Theory course or equivalently Graduate level Quantum Mechanics and QFT of scalar theory