Format results

Talk

Quantum Field Theory II  Lecture 221213
PIRSA:22120005 
Quantum Field Theory II  Lecture 221212
PIRSA:22120004 
Quantum Field Theory II  Lecture 221207
PIRSA:22120003 
Quantum Field Theory II  Lecture 221206
PIRSA:22120002 
Quantum Field Theory II  Lecture 221205
PIRSA:22120001 
Quantum Field Theory II  Lecture 221202
PIRSA:22120000 
Quantum Field Theory II  Lecture 221130
PIRSA:22110011 
Quantum Field Theory II  Lecture 221128
PIRSA:22110010


Talk

QFT2  Quantum Electrodynamics  Afternoon Lecture
Cliff Burgess McMaster University


QFT2  Quantum Electrodynamics  Afternoon Lecture
Cliff Burgess McMaster University


QFT2  Quantum Electrodynamics  Afternoon Lecture
Cliff Burgess McMaster University


QFT2  Quantum Electrodynamics  Afternoon Lecture
Cliff Burgess McMaster University



Talk

Quantum Field Theory I  Lecture 221108
PIRSA:22110003 
Quantum Field Theory I  Lecture 221107
PIRSA:22110002 
Quantum Field Theory I  Lecture 221102
PIRSA:22110001 
Quantum Field Theory I  Lecture 221101
PIRSA:22110000 
Quantum Field Theory I  Lecture 221031
Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22100057 
Quantum Field Theory I  Lecture 221028
Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22100056 
Quantum Field Theory I  Lecture 221026
Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22100055 
Quantum Field Theory I  Lecture 221024
Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22100054


Talk



Relativity  Lecture 221102
PIRSA:22110025 
Relativity  Lecture 221101
PIRSA:22110024 
Relativity  Lecture 221031
PIRSA:22100087 
Relativity  Lecture 221028
PIRSA:22100086 
Relativity  Lecture 221026
PIRSA:22100085 
Relativity  Lecture 221024
PIRSA:22100084


Talk

Classical Physics  Lecture 221004
PIRSA:22100059 
Classical Physics  Lecture 221003
PIRSA:22100058 
Classical Physics  Lecture 220928
PIRSA:22090055 
Classical Physics  Lecture 220927
PIRSA:22090054 
Classical Physics  Lecture 220926
PIRSA:22090053 
Classical Physics  Lecture 220923
Meenu Kumari National Research Council Canada (NRC)
PIRSA:22090052 
Classical Physics  Lecture 220919
Meenu Kumari National Research Council Canada (NRC)
PIRSA:22090051 
Classical Physics  Lecture 220916
PIRSA:22090050


Talk

Quantum Theory  Lecture 221004
PIRSA:22100099 
Quantum Theory  Lecture 221003
PIRSA:22100098 
Quantum Theory  Lecture 220928
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090043 
Quantum Theory  Lecture 220927
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090042 
Quantum Theory  Lecture 220926
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090041 
Quantum Theory  Lecture 220923
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090040 
Quantum Theory  Lecture 220921
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090039 
Quantum Theory  Lecture 220919
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090038


Talk

Cosmology

Kendrick Smith Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22050017 

Cosmology (2021/2022)

Kendrick Smith Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22050013 

Cosmology (2021/2022)

Kendrick Smith Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22050012 

Cosmology (2021/2022)

Kendrick Smith Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22040085 

Cosmology (2021/2022)

Kendrick Smith Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22040084 

Cosmology (2021/2022)

Kendrick Smith Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22040086 

Cosmology (2021/2022)

Kendrick Smith Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22040083 

Cosmology (2021/2022)

Kendrick Smith Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22040082 


Talk

Quantum Information and holography

Aaron Szasz Lawrence Berkeley National Laboratory

Beni Yoshida Perimeter Institute for Theoretical Physics
PIRSA:22050006 

Quantum Information and holography

Aaron Szasz Lawrence Berkeley National Laboratory

Beni Yoshida Perimeter Institute for Theoretical Physics
PIRSA:22050005 

Quantum Information and holography

Aaron Szasz Lawrence Berkeley National Laboratory

Beni Yoshida Perimeter Institute for Theoretical Physics
PIRSA:22050004 

Quantum Information and holography

Aaron Szasz Lawrence Berkeley National Laboratory

Beni Yoshida Perimeter Institute for Theoretical Physics
PIRSA:22040054 

Quantum Information and holography

Aaron Szasz Lawrence Berkeley National Laboratory

Beni Yoshida Perimeter Institute for Theoretical Physics
PIRSA:22040053 

Quantum Information and holography

Aaron Szasz Lawrence Berkeley National Laboratory

Beni Yoshida Perimeter Institute for Theoretical Physics
PIRSA:22040052 

Quantum Information and holography

Aaron Szasz Lawrence Berkeley National Laboratory

Beni Yoshida Perimeter Institute for Theoretical Physics
PIRSA:22040051 

Quantum Information and holography

Aaron Szasz Lawrence Berkeley National Laboratory

Beni Yoshida Perimeter Institute for Theoretical Physics
PIRSA:22040050 


Talk



Machine Learning (2021/2022)
Lauren Hayward Perimeter Institute for Theoretical Physics
PIRSA:22050009 
Machine Learning (2021/2022)
Mohamed Hibat Allah Perimeter Institute for Theoretical Physics
PIRSA:22040075 
Machine Learning (2021/2022)
Mohamed Hibat Allah Perimeter Institute for Theoretical Physics
PIRSA:22040074 
Machine Learning (2021/2022)
Lauren Hayward Perimeter Institute for Theoretical Physics
PIRSA:22040073 
Machine Learning (2021/2022)
Lauren Hayward Perimeter Institute for Theoretical Physics
PIRSA:22040072 
Machine Learning (2021/2022)
Lauren Hayward Perimeter Institute for Theoretical Physics
PIRSA:22040071


Talk

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:22050016 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:22050015 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:22050014 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:22040099 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:22040098 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:22040097 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:22040095 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:22040094 


Talk


Talk

Ads/CFT

Pedro Vieira Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22040109 

AdS/CFT

Gang Xu Perimeter Institute for Theoretical Physics

Pedro Vieira Perimeter Institute for Theoretical Physics
PIRSA:22040013 

AdS/CFT

Gang Xu Perimeter Institute for Theoretical Physics

Pedro Vieira Perimeter Institute for Theoretical Physics
PIRSA:22040014 

AdS/CFT

Gang Xu Perimeter Institute for Theoretical Physics

Pedro Vieira Perimeter Institute for Theoretical Physics
PIRSA:22040012 

AdS/CFT 2021/2022

Pedro Vieira Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22040011 

AdS/CFT 2021/2022

Pedro Vieira Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22030045 

AdS/CFT

Gang Xu Perimeter Institute for Theoretical Physics

Pedro Vieira Perimeter Institute for Theoretical Physics
PIRSA:22030100 



Quantum Field Theory II (2022/2023)
The course has three parts. In the first part of the course, the path integral formulation of nonrelativistic quantum mechanics and the functional integral formulation of quantum field theory are developed. The second part of the course covers renormalization and the renormalization group. Finally, nonabelian gauge theories are quantized using functional integral techniques.

Special Topics in Physics  QFT2: Quantum Electrodynamics (Cliff Burgess)
This course uses quantum electrodynamics (QED) as a vehicle for covering several more advanced topics within quantum field theory, and so is aimed at graduate students that already have had an introductory course on quantum field theory. Among the topics hoped to be covered are: gauge invariance for massless spin1 particles from special relativity and quantum mechanics; Ward identities; photon scattering and loops; UV and IR divergences and why they are handled differently; effective theories and the renormalization group; anomalies.

Quantum Field Theory I (2022/2023)
The 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 oneloop order.
Prerequisite: PSI Quantum Theory course or equivalently Graduate level Quantum Mechanics and QFT of scalar theory

Relativity (2022/2023)
This is an introductory course on general relativity (GR). We shall cover the basics of differential geometry and its applications to Einstein’s theory of gravity. The plan is to discuss black holes, gravitational waves, and observational evidence for GR, as well as to cover some of the more advanced topics. 
Classical Physics (2022/2023)
This is a theoretical physics course that aims to review the basics of theoretical mechanics, special relativity and classical field theory, with the emphasis on geometrical notions and relativistic formalism.

Quantum Theory (20222023)
This course on quantum mechanics is divided in two parts:
The aim of the first part is to review the basis of quantum mechanics. The course aims to provide an overview of the perturbation theory to handle perturbations in quantum systems. Time evolution of quantum systems using the Schrodinger, Heisenberg and interaction pictures will be covered. Basics of quantum statistical mechanics for distinguishable particles, bosons, and fermions will be covered. A brief overview of density matrix approach and quantum systems interacting with the environment will be given.
The second part of the course is an introduction to scalar quantum field theory. The Feynman diagram technique for perturbation theory is developed and applied to the scattering of relativistic particles. Renormalization is briefly discussed. 
Cosmology (2021/2022)
This class is an introduction to cosmology. We'll cover expansion history of the universe, thermal history, dark matter models, and as much cosmological perturbation theory as time permits. 
Quantum Information and holography (2021/2022)
Topics will include (but are not limited to):  Quantum error correction in quantum gravity and condensed matter  Quantum information scrambling and black hole information  Physics of random tensor networks and random unitary circuits 
Machine Learning (2021/2022)
This course is designed to introduce modern machine learning techniques for studying classical and quantum manybody problems encountered in condensed matter, quantum information, and related fields of physics. Lectures will focus on introducing machine learning algorithms and discussing how they can be applied to solve problem in statistical physics. Tutorials and homework assignments will concentrate on developing programming skills to study the problems presented in lecture. 
Strong Gravity (2021/2022)
This 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 (20212022)
Topics will include (but are not limited to): Canonical formulation of constrained systems, The Dirac program, First order formalism of gravity, Loop Quantum Gravity, Spinfoam models, Research at PI and other approaches to quantum gravity. 