Format results
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Talk
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Summer Undergrad 2020 - Symmetries (A) - Lecture 5
Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:20060017 -
Summer Undergrad 2020 - Symmetries (A) - Lecture 4
Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:20060016 -
Summer Undergrad 2020 - Symmetries (A) - Lecture 3
Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:20050047 -
Summer Undergrad 2020 - Symmetries (A) - Lecture 2
Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:20050046 -
Summer Undergrad 2020 - Symmetries (A) - Lecture 1
Giuseppe Sellaroli Perimeter Institute for Theoretical Physics
PIRSA:20050045
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Talk
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Summer Undergrad 2020 - Quantum Information - Lecture 5
Alioscia Hamma Università degli Studi di Napoli Federico II
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Summer Undergrad 2020 - Quantum Information - Lecture 4
Alioscia Hamma Università degli Studi di Napoli Federico II
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Summer Undergrad 2020 - Quantum Information - Lecture 3
Alioscia Hamma Università degli Studi di Napoli Federico II
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Summer Undergrad 2020 - Quantum Information - Lecture 2
Alioscia Hamma Università degli Studi di Napoli Federico II
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Summer Undergrad 2020 - Quantum Information - Lecture 1
Alioscia Hamma Università degli Studi di Napoli Federico II
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Talk
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Summer Undergrad 2020 - Numerical Methods (A) - Lecture 5
Aaron Szasz Lawrence Berkeley National Laboratory
PIRSA:20060013 -
Summer Undergrad 2020 - Numerical Methods (A) - Lecture 4
Aaron Szasz Lawrence Berkeley National Laboratory
PIRSA:20060012 -
Summer Undergrad 2020 - Numerical Methods (A) - Lecture 3
Aaron Szasz Lawrence Berkeley National Laboratory
PIRSA:20060011 -
Summer Undergrad 2020 - Numerical Methods (A) - Lecture 2
Aaron Szasz Lawrence Berkeley National Laboratory
PIRSA:20050041 -
Summer Undergrad 2020 - Numerical Methods (A) - Lecture 1
Aaron Szasz Lawrence Berkeley National Laboratory
PIRSA:20050040
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Talk
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PSI 2019/2020 - Cosmology Part 2 - Lecture 2
Matthew Johnson York University
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PSI 2019/2020 - Cosmology Part 2 - Lecture 1
Matthew Johnson York University
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Talk
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PSI 2019/2020 - Quantum Gravity Part 1 - Lecture 6
Bianca Dittrich Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Gravity Part 1 - Lecture 5
Bianca Dittrich Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Gravity Part 1 - Lecture 4
Bianca Dittrich Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Gravity Part 1 - Lecture 3
Bianca Dittrich Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Gravity Part 1 - Lecture 2
Bianca Dittrich Perimeter Institute for Theoretical Physics
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PSI 2019/2020 - Quantum Gravity Part 1 - Lecture 1
Bianca Dittrich Perimeter Institute for Theoretical Physics
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Talk
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PSI 2019/2020 - Relativistic Quantum Information Part 1 - Lecture 4
Eduardo Martin-Martinez Institute for Quantum Computing (IQC)
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PSI 2019/2020 - Relativistic Quantum Information Part 1 - Lecture 3
Eduardo Martin-Martinez Institute for Quantum Computing (IQC)
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PSI 2019/2020 - Relativistic Quantum Information Part 1 - Lecture 2
Eduardo Martin-Martinez Institute for Quantum Computing (IQC)
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PSI 2019/2020 - Relativistic Quantum Information Part 1 - Lecture 1
Eduardo Martin-Martinez Institute for Quantum Computing (IQC)
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Summer Undergrad 2020 - Symmetries
The aim of this course is to explore some of the many ways in which symmetries play a role in physics. We’ll start with an overview of the concept of symmetries and their description in the language of group theory. We will then discuss continuous symmetries and infinitesimal symmetries, their fundamental role in Noether’s theorem, and their formalisation in terms of Lie groups and Lie algebras. In the last part of the course we will focus on symmetries in quantum theory and introduce representations of (Lie) groups and Lie algebras.
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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 - Numerical Methods
This course has two main goals: (1) to introduce some key models from condensed matter physics; and (2) to introduce some numerical approaches to studying these (and other) models. As a precursor to these objectives, we will carefully understand many-body states and operators from the perspective of condensed matter theory. (However, I will cover only spin models. We will not discuss or use second quantization.)
Once this background is established, we will study the method of exact diagonalization and write simple python programs to find ground states, correlation functions, energy gaps, and other properties of the transverse-field Ising model. We will also discuss the computational limitations of exact diagonalization. Finally, I will introduce the concept of matrix product states, and we will see that these can be used to study ground state properties for much larger systems than can be studied with exact diagonalization.
Each 90-minute session will include substantial programming exercises in addition to lecture. Prior programming experience is not expected or required, but I would like everyone to have python (version 3) installed on their computer prior to the first class, including Jupyter notebooks; see “Resources” below.
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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 Relativistic Quantum Information Part 2
PSI 2019/2020 Relativistic Quantum Information Part 2 -
PSI 2019/2020 - Quantum Information
PSI 2019/2020 - Quantum Information -
PSI 2019/2020 - Chern-Simons Theory Part 2
PSI 2019/2020 - Chern-Simons Theory Part 2 -
PSI 2019/2020 - Cosmology Part 2
PSI 2019/2020 - Cosmology Part 2 -
PSI 2019/2020 - Quantum Gravity Part 1
PSI 2019/2020 - Quantum Gravity Part 1 -
PSI 2019/2020 - Relativistic Quantum Information Part 1
PSI 2019/2020 - Relativistic Quantum Information Part 1