Search results from PIRSA
Format results
-
-
Talk
-
Quantum Spacetime: from Speculation to Numbers
Renate Loll Radboud Universiteit Nijmegen
-
Quantum Gravity through the lens of Effective Field Theory
Alessia Platania University of Copenhagen
-
Planck-scale violations of relativistic symmetries in astrophysics and in quantum systems
Giulia Gubitosi University of Naples Federico II
PIRSA:25030057 -
Quantum Dynamics of Causal Sets: Results and Challenges
Sumati Surya Raman Research Institute
-
Ensembles of open quantum systems as a tool for quantum spacetime
Sarah Shandera Pennsylvania State University
-
Exploring the expanding Universe with the Dark Energy Survey
Jessica Muir University of Cincinnati
-
Gravitational waves as a window on gravity
Jocelyn Read California State University, Fullerton
-
Quantum Gravity in the era of Gravitational-Wave astronomy
Mairi Sakellariadou King's College London
-
-
Talk
-
Lecture - Quantum Field Theory III - PHYS 777
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Quantum Field Theory III - PHYS 777
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Quantum Field Theory III - PHYS 777
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Quantum Field Theory III - PHYS 777
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Quantum Field Theory III - PHYS 777
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Quantum Field Theory III - PHYS 777 (extra Lecture)
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Quantum Field Theory III - PHYS 777
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Quantum Field Theory III - PHYS 777
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
-
Talk
-
Lecture - Quantum Information, PHYS 635
Alex May Perimeter Institute for Theoretical Physics
-
-
-
-
Lecture - Quantum Information, PHYS 635
Alex May Perimeter Institute for Theoretical Physics
-
-
-
-
-
Talk
-
Lecture - Strong Gravity, PHYS 777
William East Perimeter Institute for Theoretical Physics
-
Lecture - Strong Gravity, PHYS 777
William East Perimeter Institute for Theoretical Physics
-
Lecture - Strong Gravity, PHYS 777
William East Perimeter Institute for Theoretical Physics
-
Lecture - Strong Gravity, PHYS 777
William East Perimeter Institute for Theoretical Physics
-
Lecture - Strong Gravity, PHYS 777
William East Perimeter Institute for Theoretical Physics
-
Lecture - Strong Gravity, PHYS 777
William East Perimeter Institute for Theoretical Physics
-
Lecture - Strong Gravity, PHYS 777
William East Perimeter Institute for Theoretical Physics
-
Lecture - Strong Gravity, PHYS 777
William East Perimeter Institute for Theoretical Physics
-
-
Talk
-
Lecture - Machine Learning, PHYS 777
Mohamed Hibat Allah University of Waterloo
-
Lecture - Machine Learning, PHYS 777
Mohamed Hibat Allah University of Waterloo
-
Lecture - Machine Learning, PHYS 777
Mohamed Hibat Allah University of Waterloo
-
Lecture - Machine Learning, PHYS 777
Mohamed Hibat Allah University of Waterloo
-
Lecture - Machine Learning, PHYS 777
Mohamed Hibat Allah University of Waterloo
-
Lecture - Machine Learning, PHYS 777
Mohamed Hibat Allah University of Waterloo
-
Lecture - Machine Learning, PHYS 777
Mohamed Hibat Allah University of Waterloo
-
Lecture - Machine Learning, PHYS 777
Mohamed Hibat Allah University of Waterloo
-
-
Talk
-
Lecture - Numerical Methods, PHYS 777
-
Erik Schnetter Perimeter Institute for Theoretical Physics
-
Dustin Lang Perimeter Institute for Theoretical Physics
-
-
Lecture - Numerical Methods, PHYS 777
-
Erik Schnetter Perimeter Institute for Theoretical Physics
-
Dustin Lang Perimeter Institute for Theoretical Physics
-
-
Lecture - Numerical Methods, PHYS 777
-
Erik Schnetter Perimeter Institute for Theoretical Physics
-
Dustin Lang Perimeter Institute for Theoretical Physics
-
-
Lecture - Numerical Methods, PHYS 777
-
Erik Schnetter Perimeter Institute for Theoretical Physics
-
Dustin Lang Perimeter Institute for Theoretical Physics
-
-
Lecture - Numerical Methods, PHYS 777
-
Erik Schnetter Perimeter Institute for Theoretical Physics
-
Dustin Lang Perimeter Institute for Theoretical Physics
-
-
Lecture - Numerical Methods, PHYS 777
-
Erik Schnetter Perimeter Institute for Theoretical Physics
-
Dustin Lang Perimeter Institute for Theoretical Physics
-
-
Lecture - Numerical Methods, PHYS 777
-
Erik Schnetter Perimeter Institute for Theoretical Physics
-
Dustin Lang Perimeter Institute for Theoretical Physics
-
-
Lecture - Numerical Methods, PHYS 777
-
Erik Schnetter Perimeter Institute for Theoretical Physics
-
Dustin Lang Perimeter Institute for Theoretical Physics
-
-
-
Talk
-
Lecture - Mathematical Physics, PHYS 777-
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Mathematical Physics, PHYS 777-
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Mathematical Physics, PHYS 777-
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Mathematical Physics, PHYS 777-
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Mathematical Physics, PHYS 777-
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Mathematical Physics, PHYS 777-
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Mathematical Physics, PHYS 777-
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
Lecture - Mathematical Physics, PHYS 777-
Mykola Semenyakin Perimeter Institute for Theoretical Physics
-
-
Talk
-
Lecture - Standard Model, PHYS 622
Seyda Ipek Carleton University
-
Lecture - Standard Model, PHYS 622
Seyda Ipek Carleton University
-
Lecture - Standard Model, PHYS 622
Seyda Ipek Carleton University
-
Lecture - Standard Model, PHYS 622
Seyda Ipek Carleton University
-
Lecture - Standard Model, PHYS 622
Seyda Ipek Carleton University
-
Lecture - Standard Model, PHYS 622
Seyda Ipek Carleton University
-
Lecture - Standard Model, PHYS 622
Seyda Ipek Carleton University
-
Lecture - Standard Model, PHYS 622
Seyda Ipek Carleton University
-
-
Talk
-
Lecture - Gravitational Physics, PHYS 636
Ruth Gregory King's College London
-
Lecture - Gravitational Physics, PHYS 636
Ruth Gregory King's College London
-
Lecture - Gravitational Physics, PHYS 636
Ruth Gregory King's College London
-
Lecture - Gravitational Physics, PHYS 636
Ruth Gregory King's College London
-
Lecture - Gravitational Physics, PHYS 636
Ruth Gregory King's College London
-
Lecture - Gravitational Physics, PHYS 636
Ruth Gregory King's College London
-
Lecture - Gravitational Physics, PHYS 636
Ruth Gregory King's College London
-
Lecture - Gravitational Physics, PHYS 636
Ruth Gregory King's College London
-
-
String Theory Bootcamp
Short course offered as preparation for AdS/CFT. Taught by Gang Xu. No credit. Optional. -
Emmy Noether Workshop: Quantum Space Time
Constructing a theory of quantum gravity, and with it a notion of quantum spacetime is one of the biggest challenges faced by modern theoretical physics. This workshop will bring together researchers from a wide range of viewpoints and give them an opportunity to exchange ideas and gain new insights.
The workshop is supported by the Simons Foundation.
:: :: ::
Workshop Speakers
Marcela Carena (Perimeter Institute)
Astrid Eichhorn (Universität Heidelberg)
Netta Englehardt (MIT)
Johanna Erdmenger (University of Würzburg)
Gulia Gubitosi (University of Naples Federico II)
Renate Loll (Radboud University)
Jessica Muir (Perimeter Institute)
A.W. Peet (University of Toronto)
Alessia Platania (University of Copenhagen)
Jocelyn Read (California State University, Fullerton)
Kasia Rejzner (York University)
Mairi Sakellariadou (King's College London)
Sarah Shandera (Pennsylvania State University)
Sumati Surya (Raman Research Institute)
Karen Yeats (University of Waterloo):: :: ::
Scientific Organizers
Bianca Dittrich (Perimeter Institute)
Sabrina Pasterski (Perimeter Institute)
Céline Zwikel (Perimeter Institute)
Sruthi Narayanan (Perimeter Institute) -
Quantum Field Theory III, PHYS 777-, February 24 - March 28, 2025
The course will cover the basics of conformal field theories and also some applications, including exact computations of the critical exponents in 2d statistical models. Instructor: Jaume Gomis/Mykola Semenyakin Students who are not part of the PSI MSc program should review enrollment and course format information here: https://perimeterinstitute.ca/graduate-courses -
Quantum Information (Elective), PHYS 635, February 24 - March 28, 2025
We look to understand the possibilities and limits of quantum information processing, and how an information theory perspective can inform theoretical physics. Topics covered include: entanglement, tools for measuring nearness of quantum states, characterizing the most general possible quantum operations, entropy and measuring information, the stabilizer formalism, quantum error-correcting codes, the theory of computation, quantum algorithms, classical and quantum complexity. Instructor: Alex May/Bindiya Arora Students who are not part of the PSI MSc program should review enrollment and course format information here: https://perimeterinstitute.ca/graduate-courses -
Mathematical Physics (Elective), PHYS 777, March 31 - May 2, 2025
We 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. Instructor: Kevin Costello/Mykola Semenyakin Students who are not part of the PSI MSc program should review enrollment and course format information here: https://perimeterinstitute.ca/graduate-courses -
Strong Gravity (Elective), PHYS 777, February 24 - March 28, 2025
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. Instructor: William East/Ghazal Geshnizjani Students who are not part of the PSI MSc program should review enrollment and course format information here: https://perimeterinstitute.ca/graduate-courses -
Machine Learning (Elective), PHYS 777, February 24 - March 28, 2025
Machine 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. Instructor: Mohamed Hibat Allah Students who are not part of the PSI MSc program should review enrollment and course format information here: https://perimeterinstitute.ca/graduate-courses -
Numerical Methods (Core), PHYS 777-, January 6 - February 5, 2025
This course teaches basic numerical methods that are widely used across many fields of physics. The course is based on the Julia programming language. Topics include an introduction to Julia, linear algebra, Monte Carlo methods, differential equations, and are based on applications by researchers at Perimeter. The course will also teach principles of software engineering ensuring reproducible results Instructor: Erik Schnetter/Dustin Lang/Subhayan Students who are not part of the PSI MSc program should review enrollment and course format information here: https://perimeterinstitute.ca/graduate-courses -
Mathematical Physics (Core), PHYS 777-, January 6 - February 5, 2025
This course will introduce you to some of the geometrical structures underlying theoretical physics. Previous knowledge of differential geometry is not required. Topics covered in the course include: Introduction to manifolds, differential forms, symplectic manifolds, symplectic version of Noether’s theorem, integration on manifolds, fiber bundles, principal bundles and applications to gauge theory. Instructor: Mykola Semenyakin/Maite Dupuis Students who are not part of the PSI MSc program should review enrollment and course format information here: https://perimeterinstitute.ca/graduate-courses -
Standard Model (Elective), PHYS 622, January 6 - February 5, 2025
The Standard Model of particle physics is introduced, and reviewed, from a modern effective field theory perspective. Instructor: Seyda Ipek/Gang Xu Students who are not part of the PSI MSc program should review enrollment and course format information here: https://perimeterinstitute.ca/graduate-courses -
Gravitational Physics (Elective), PHYS 636, January 6 - February 5, 2025
The main objective of this course is to discuss some advanced topics in gravitational physics and its applications to high energy physics. Necessary mathematical tools will be introduced on the way. Instructor: Ruth Gregory/Aldo Riello Students who are not part of the PSI MSc program should review enrollment and course format information here: https://perimeterinstitute.ca/graduate-courses