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Talk
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Summer Undergrad 2020 - Quantum Information - Lecture 5
Alioscia Hamma University of Naples Federico II
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Summer Undergrad 2020 - Quantum Information - Lecture 4
Alioscia Hamma University of Naples Federico II
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Summer Undergrad 2020 - Quantum Information - Lecture 3
Alioscia Hamma University of Naples Federico II
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Summer Undergrad 2020 - Quantum Information - Lecture 2
Alioscia Hamma University of Naples Federico II
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Summer Undergrad 2020 - Quantum Information - Lecture 1
Alioscia Hamma University of Naples Federico II
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Talk
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Summer Undergrad 2020 - Path Integrals (M) - Lecture 5
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:20060007 -
Summer Undergrad 2020 - Path Integrals (M) - Lecture 4
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:20060006 -
Summer Undergrad 2020 - Path Integrals (M) - Lecture 3
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:20060005 -
Summer Undergrad 2020 - Path Integrals (M) - Lecture 2
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:20050037 -
Summer Undergrad 2020 - Path Integrals (M) - Lecture 1
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:20050036
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Talk
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Projective elliptic genera and applications
Fei Han National University of Singapore
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Topological Modular Forms and Quantum Field Theory
Davide Gaiotto Perimeter Institute for Theoretical Physics
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Equivariant elliptic cohomology with integral coefficients
Lennart Meier Utrecht University
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The de Rham model for elliptic cohomology from physics
Arnav Tripathy Harvard University
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Quasisymmetric characteristic numbers for Hamiltonian toric manifolds
Jack Morava Johns Hopkins University
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Codes, vertex algebras and topological modular forms
Gerd Laures Ruhr University Bochum
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Elliptic characteristic classes, bow varieties, 3d mirror duality
Richard Rimanyi University of North Carolina at Chapel Hill
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Summer Undergrad 2020 - Quantum Information
The aim of this course is to understand the thermodynamics of quantum systems and in the process to learn some fundamental tools in Quantum Information. We will focus on the topics of foundations of quantum statistical mechanics, resource theories, entanglement, fluctuation theorems, and quantum machines.
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Summer Undergrad 2020 - Path Integrals
The goal of this course is to introduce the path integral formulation of quantum mechanics and a few of its applications. We will begin by motivating the path integral formulation and explaining its connections to other formulations of quantum mechanics and its relation to classical mechanics. We will then explore some applications of path integrals. Each 90-minute session will include roughly equal amounts of lecture time and activities. The activities are designed to enhance your learning experience and allow you to assess your own level of understanding.
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Gravitational Wave Astrophysics (ONLINE)
Due to the ongoing COVID-19 pandemic, the original program has been canceled. However, the summer school will be conducted through online lectures. The program involves two components. The first fortnight (18﹣22 May) involves a summer school for students and young researchers, that is part of the annual summer schools on gravitational-wave astronomy. The second fortnight (25 May﹣5 June) involves a workshop for active researchers working on gravitational wave astronomy, astrophysics, and related areas. This year’s summer school will focus on the multimessenger modeling of compact binary mergers, involving four graduate-level courses on numerical relativity, numerical hydrodynamics, and the modeling of short gamma-ray bursts and kilonovae. The workshop will focus on two broad themes: The first week (25 ﹣ 29 May) will focus on compact binary merger physics and multimessenger astrophysics, while the second week (1 ﹣ 5 June) will focus on black hole physics and astrophysics using gravitat...
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Gravitational Wave Astrophysics (ONLINE)
Due to the ongoing COVID-19 pandemic, the original program has been canceled. However, the summer school will be conducted through online lectures. The program involves two components. The first fortnight (18﹣22 May) involves a summer school for students and young researchers, that is part of the annual summer schools on gravitational-wave astronomy. The second fortnight (25 May﹣5 June) involves a workshop for active researchers working on gravitational wave astronomy, astrophysics, and related areas. This year’s summer school will focus on the multimessenger modeling of compact binary mergers, involving four graduate-level courses on numerical relativity, numerical hydrodynamics, and the modeling of short gamma-ray bursts and kilonovae. The workshop will focus on two broad themes: The first week (25 ﹣ 29 May) will focus on compact binary merger physics and multimessenger astrophysics, while the second week (1 ﹣ 5 June) will focus on black hole physics and astrophysics using gravitat...
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Infrared Physics in Gauge and Gravity
Infrared Physics in Gauge and Gravity -
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PSI 2019/2020 - Quantum Gravity Part 2
PSI 2019/2020 - Quantum Gravity Part 2 -
PSI 2019/2020 - Quantum Information
PSI 2019/2020 - Quantum Information -
PSI 2019/2020 Relativistic Quantum Information Part 2
PSI 2019/2020 Relativistic Quantum Information Part 2 -
PIMan: The Second Perimeter Institute-Chapman Workshop on Quantum Foundations
PIMan: The Second Perimeter Institute-Chapman Workshop on Quantum Foundations -
PSI 2019/2020 - Chern-Simons Theory Part 2
PSI 2019/2020 - Chern-Simons Theory Part 2