Format results

Talk

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22050016 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22050015 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22050014 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22040099 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22040098 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22040097 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22040095 

Strong Gravity

William East Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22040094 


Talk


Talk

GoodBye and Closing Remarks

Luis Lehner Perimeter Institute for Theoretical Physics

Suvodip Mukherjee Tata Institute of Fundamental Research (TIFR)

Reed Essick Canadian Institute for Theoretical Astrophysics (CITA)

Daniel Siegel University of Greifswald

Huan Yang University of Guelph

William East Perimeter Institute for Theoretical Physics


Modeling waveform uncertainty
Michael Puerrer Max Planck Institute for Gravitational Physics (Albert Einstein Institute)

Analytic waveform models
Riccardo Sturani ICTPSAIFR

Cosmological stochastic background
Raphael Flauger University of California System

Astrophysical stochastic background
Thomas Callister University of Chicago

Astrophysical populations and waveform modelling challenges to study cosmology
Maya Fishbach Canadian Institute for Theoretical Astrophysics (CITA)


Pulsar Timing Arrays
Xavier Siemens Oregon State University


Talk

Ads/CFT

Pedro Vieira Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
22040109 

AdS/CFT

Gang Xu Perimeter Institute for Theoretical Physics

Pedro Vieira Perimeter Institute for Theoretical Physics
22040013 

AdS/CFT

Gang Xu Perimeter Institute for Theoretical Physics

Pedro Vieira Perimeter Institute for Theoretical Physics
22040014 

AdS/CFT

Gang Xu Perimeter Institute for Theoretical Physics

Pedro Vieira Perimeter Institute for Theoretical Physics
22040012 

AdS/CFT 2021/2022

Pedro Vieira Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
22040011 

AdS/CFT 2021/2022

Pedro Vieira Perimeter Institute for Theoretical Physics

Gang Xu Perimeter Institute for Theoretical Physics
22030045 

AdS/CFT

Gang Xu Perimeter Institute for Theoretical Physics

Pedro Vieira Perimeter Institute for Theoretical Physics
22030100 



Talk

Geometry and topology for physicists 2021/2022  Lecture 14

Kevin Costello Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22030072 

Geometry and topology for physicists 2021/2022  Lecture 13

Kevin Costello Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22030071 

Geometry and topology for physicists 2021/2022  Lecture 12

Kevin Costello Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22030070 

Geometry and topology for physicists 2021/2022  Lecture 10

Kevin Costello Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22030068 

Geometry and topology for physicists 2021/2022  Lecture 9

Kevin Costello Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22030067 

Geometry and topology for physicists 2021/2022  Lecture 8
Kevin Costello Perimeter Institute for Theoretical Physics
22030066 
Geometry and topology for physicists 2021/2022  Lecture 7

Kevin Costello Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22030065 

Geometry and topology for physicists 2021/2022  Lecture 6

Kevin Costello Perimeter Institute for Theoretical Physics

Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
22030064 


Talk

Quantum Fields and Strings 2021/2022  Lecture 3
Dan Wohns Perimeter Institute for Theoretical Physics

Quantum Fields and Strings  Lecture 2
Dan Wohns Perimeter Institute for Theoretical Physics

Quantum Fields and Strings 2021/2022 Lecture 1
Dan Wohns Perimeter Institute for Theoretical Physics


Talk

Quantum Information 2021/2022

Eduardo MartinMartinez Institute for Quantum Computing (IQC)
22030081 

Quantum Information 2021/2022

Eduardo MartinMartinez Institute for Quantum Computing (IQC)
22030080 

Quantum Information 2021/2022

Eduardo MartinMartinez Institute for Quantum Computing (IQC)
22030079 

Quantum Information 2021/2022

Eduardo MartinMartinez Institute for Quantum Computing (IQC)
22030078 

Quantum Information 2021/2022

Eduardo MartinMartinez Institute for Quantum Computing (IQC)
22030077 

Quantum Information 2021/2022

Eduardo MartinMartinez Institute for Quantum Computing (IQC)
22030076 

Quantum Information 2021/2022

Eduardo MartinMartinez Institute for Quantum Computing (IQC)
22030075 

Quantum Information 2021/2022

Eduardo MartinMartinez Institute for Quantum Computing (IQC)
22030074 


Talk

Classical and Quantum Chaos 2021/2022  Lecture 14
Meenu Kumari Perimeter Institute for Theoretical Physics
22030058 
Classical and Quantum Chaos 2021/2022  Lecture 13
Meenu Kumari Perimeter Institute for Theoretical Physics
22030057 
Classical and Quantum Chaos 2021/2022  Lecture 12
Meenu Kumari Perimeter Institute for Theoretical Physics
22030056 
Classical and Quantum Chaos 2021/2022  Lecture 11
Meenu Kumari Perimeter Institute for Theoretical Physics
22030055 
Classical and Quantum Chaos 2021/2022  Lecture 10
Meenu Kumari Perimeter Institute for Theoretical Physics
22030054 
Classical and Quantum Chaos 2021/2022  Lecture 9
Meenu Kumari Perimeter Institute for Theoretical Physics
22030053 
Classical and Quantum Chaos 2021/2022  Lecture 8
Meenu Kumari Perimeter Institute for Theoretical Physics
22030052 
Classical and Quantum Chaos 2021/2022  Lecture 7
Meenu Kumari Perimeter Institute for Theoretical Physics
22030112


Talk

QFT III 2021/2022
Francois David Commissariat a Energie Atomique (CEA)  Saclay  Institut de Physique Théorique (IPhT)
22020017 
QFT III 2021/2022
Francois David Commissariat a Energie Atomique (CEA)  Saclay  Institut de Physique Théorique (IPhT)
22020016 
QFT III 2021/2022
Francois David Commissariat a Energie Atomique (CEA)  Saclay  Institut de Physique Théorique (IPhT)
22020015 
QFT III 2021/2022
Francois David Commissariat a Energie Atomique (CEA)  Saclay  Institut de Physique Théorique (IPhT)
22020014 
QFT III 2021/2022
Francois David Commissariat a Energie Atomique (CEA)  Saclay  Institut de Physique Théorique (IPhT)
22020013 
QFT III 2021/2022
Francois David Commissariat a Energie Atomique (CEA)  Saclay  Institut de Physique Théorique (IPhT)
22010032 
QFT III 2021/2022
Francois David Commissariat a Energie Atomique (CEA)  Saclay  Institut de Physique Théorique (IPhT)
22010031 
QFT III 2021/2022
Francois David Commissariat a Energie Atomique (CEA)  Saclay  Institut de Physique Théorique (IPhT)
22010030


Talk

PSI Lecture  Condensed Matter  Lecture 15
Aaron Szasz Lawrence Berkeley National Laboratory (LBNL)

PSI Lecture  Condensed Matter  Lecture 14
Aaron Szasz Lawrence Berkeley National Laboratory (LBNL)

PSI Lecture  Condensed Matter  Lecture 13
Aaron Szasz Lawrence Berkeley National Laboratory (LBNL)

PSI Lecture  Condensed Matter  Lecture 12
Aaron Szasz Lawrence Berkeley National Laboratory (LBNL)

PSI Lecture  Condensed Matter  Lecture 11
Aaron Szasz Lawrence Berkeley National Laboratory (LBNL)

PSI Lecture  Condensed Matter  Lecture 10
Aaron Szasz Lawrence Berkeley National Laboratory (LBNL)

PSI Lecture  Condensed Matter  Lecture 9
Aaron Szasz Lawrence Berkeley National Laboratory (LBNL)

PSI Lecture  Condensed Matter  Lecture 8
Aaron Szasz Lawrence Berkeley National Laboratory (LBNL)


Talk


Talk

GoodBye and Closing Remarks

Alexander Smith Dartmouth College

Flaminia Giacomini ETH Zurich


Interaction and Evolution in Classical and Quantum Physics, and Indefinite Causal Structure
Erik Curiel LudwigMaximiliansUniversitiät München (LMU)


Time Symmetry in Decoherence and Stable Facts
Anirban Ganguly AixMarseille University


Representing time and time's arrow
Bryan Roberts London School of Economics and Political Science

An experiment to detect the Discreteness of time
Marios Christodoulou The University of Hong Kong (HKU)



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. 
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. 
Gravitational Waves Beyond the Boxes II
Gravitational Waves Beyond the Boxes II 

Geometry and Topology for Physicists 2021/2022
The aim of this course is to introduce concepts in topology and geometry for applications in theoretical physics. The topics will be chosen depending on time availability from the following list: topological manifolds and smooth manifolds, differential forms and integration on manifolds, Lie groups and Lie algebras, and Riemann surfaces, cohomology and the fundamental group. 
Quantum Fields and Strings 2021/2022
This course covers three distinct topics: conformal field theory, anomalies, and string theory. The conformal field theory section of the course introduces conformal transformation and the conformal algebra, npoint functions in CFTs, and OPEs. The anomalies portion of the course focuses on the functional integral derivation of the chiral anomaly. The string theory part of the course derives the bosonic string spectrum and introduces Tduality and Dbranes. 
Quantum Information 2021/2022
We will review the notion of entanglement in quantum mechanics form the point of view of information theory, and how to quantify it and distinguish it from classical correlations. We will derive Bell inequalities and discuss their importance, and how quantum information protocols can use entanglement as a resource. Then we will analyze measurement theory in quantum mechanics, the notion of generalized measurements and quantum channels and their importance in the processing and transmission of information. We will introduce the notions of quantum circuits and see some of the most famous algorithms in quantum information processing, as well as in quantum cryptography. We will also talk about the notion of distances and fidelity between states from the point of view of information theory and we will end with a little introduction to the notions of relativistic quantum information. 
Classical and Quantum Chaos 2021/2022
Chaos, popularly known as the butterfly effect, is a ubiquitous phenomenon that renders a system's evolution unpredictable due to extreme sensitivity to initial conditions. Within the context of classical physics, it often occurs in nonintegrable Hamiltonian systems and is characterized by positive Lyapunov exponents. On the other hand, the notion of nonintegrability and chaos in quantum physics is still not wellunderstood and is an area of active research. Several signatures have been studied in the literature to identify quantum chaos but all of them fall short in some way or the other. In this course, we will first discuss the notions of classical integrability, and classical chaos and its characterization with Lyapunov exponents. Then, we will discuss a few wellstudied signatures of quantum chaos and the subtleties associated with them. 

PSI Lecture  Condensed Matter
PSI Lecture  Condensed Matter 
Postdoc Welcome 2021
As COVID19 continues to impose gathering restrictions, the “Postdoc Welcome 2021” will continue as a virtual event this year and will be hosted on Thursday, October 28 and Friday, October 29. Each new postdoc will be given 5 minutes to introduce themselves to the PI Community. The time will be used to tell us a little bit about themselves and to showcase their current research. These presentations are very casual and should not be misconstrued as formal talks. Some discussion will follow the presentations, whereby current PI Residents may have the opportunity to ask questions.
There will be two 60minute sessions:
Thursday, October 28: 12:00 – 1:00 pm
Friday, October 29: 11:30 – 12:30 pmAll PI Residents are encouraged to attend. Registration will remain open until 9:00 am on Thursday, October 28.
Please register for the Postdoc Welcome via the event website: https://events.perimeterinstitute.ca/event/9/overview