Format results
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Astrophysics and Cosmology through Problems - 14A
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Mark Wyman PDT Partners LLC
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Niayesh Afshordi University of Waterloo
PIRSA:08120002 -
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Astrophysics and Cosmology through Problems - 13B
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Mark Wyman PDT Partners LLC
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Niayesh Afshordi University of Waterloo
PIRSA:08110015 -
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Astrophysics and Cosmology through Problems - 13A
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Mark Wyman PDT Partners LLC
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Niayesh Afshordi University of Waterloo
PIRSA:08110007 -
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Astrophysics and Cosmology through Problems - 12B
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Mark Wyman PDT Partners LLC
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Niayesh Afshordi University of Waterloo
PIRSA:08110014 -
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Astrophysics and Cosmology through Problems - 12A
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Mark Wyman PDT Partners LLC
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Niayesh Afshordi University of Waterloo
PIRSA:08110006 -
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Astrophysics and Cosmology through Problems - 11B
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Mark Wyman PDT Partners LLC
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Niayesh Afshordi University of Waterloo
PIRSA:08110013 -
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Astrophysics and Cosmology through Problems - 11A
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Mark Wyman PDT Partners LLC
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Niayesh Afshordi University of Waterloo
PIRSA:08110005 -
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The Exact Renormalization Group - Lecture 4: Gauge Theories
Oliver Rosten University of Sussex
PIRSA:08050007 -
The Exact Renormalization Group - Lecture 3: The derivative Expansion
Oliver Rosten University of Sussex
PIRSA:08040021 -
The Exact Renormalization Group - Lecture 2: Exact Renormalization Group Equations
Oliver Rosten University of Sussex
PIRSA:08040020 -
The Exact Renormalization Group - Lecture 1: Wilsonian Renormalization
Oliver Rosten University of Sussex
PIRSA:08040019
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Symmetry Principles in Physics - Lecture 4A
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Michele Arzano University of Naples Federico II
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Harvey Brown University of Oxford
PIRSA:08050008 -
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Cosmology #4
PIRSA:08040008 -
Cosmology #3
PIRSA:08040007 -
Cosmology #2
PIRSA:08030010 -
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Special Topics in Physics - Lecture 14B
Rafael Sorkin Perimeter Institute for Theoretical Physics
PIRSA:08040064 -
Special Topics in Physics - Lecture 14A
Rafael Sorkin Perimeter Institute for Theoretical Physics
PIRSA:08040063 -
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Special Topics in Physics - Lecture 12B
Lee Smolin Perimeter Institute for Theoretical Physics
PIRSA:08040013 -
Special Topics in Physics - Lecture 12A
Lee Smolin Perimeter Institute for Theoretical Physics
PIRSA:08040011 -
Special Topics in Physics - Lecture 11B
Lee Smolin Perimeter Institute for Theoretical Physics
PIRSA:08030026 -
Special Topics in Physics - Lecture 11A
Lee Smolin Perimeter Institute for Theoretical Physics
PIRSA:08030022
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Can We Detect Dynamics in Dark Energy?
Marina Cortes Institute for Astrophysics and Space Sciences
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Advanced Topics in Cosmology
Viatcheslav Mukhanov Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07050018 -
Advanced Topics in Cosmology
Viatcheslav Mukhanov Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07050013 -
Advanced Topics in Cosmology
Viatcheslav Mukhanov Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07050017 -
Advanced Topics in Cosmology
Viatcheslav Mukhanov Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07050012 -
Advanced Topics in Cosmology
Viatcheslav Mukhanov Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07050011 -
Advanced Topics in Cosmology
Viatcheslav Mukhanov Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07050016 -
Advanced Topics in Cosmology 4B
Viatcheslav Mukhanov Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07050015 -
Advanced Topics in Cosmology
Viatcheslav Mukhanov Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07050010
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Black Holes & Holography - Class 8
Leonard Susskind Stanford University
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Black Holes & Holography - Class 7
Leonard Susskind Stanford University
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Black Holes and Holography: Mini-Course - Lecture 5
Leonard Susskind Stanford University
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Black Holes and Holography: Mini-Course - Lecture 5
Leonard Susskind Stanford University
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Black Holes and Holography: Mini-Course - Lecture 4
Leonard Susskind Stanford University
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Black Holes and Holography: Mini-Course - Lecture 3
Leonard Susskind Stanford University
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Black Holes and Holography: Mini-Course - Lecture 2
Leonard Susskind Stanford University
PIRSA:07030029 -
Black Hole & Holography - Class 1
Leonard Susskind Stanford University
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Introduction to quantum groups 5
Florian Koch Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07010031 -
Introduction to quantum groups 4
Florian Koch Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07010030 -
Introduction to quantum groups 3
Florian Koch Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07010029 -
Introduction to quantum groups 2
Florian Koch Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07010028 -
Introduction to quantum groups 1
Florian Koch Ludwig-Maximilians-Universitiät München (LMU)
PIRSA:07010027
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Quantum Field Theory I
Quantum Field Theory I course taught by Volodya Miransky of the University of Western Ontario -
Astrophysics & Cosmology Through Problems
This course is aimed at advanced undergraduate and beginning graduate students, and is inspired by a book by the same title, written by Padmanabhan. Each session consists of solving one or two pre-determined problems, which is done by a randomly picked student. While the problems introduce various subjects in Astrophysics and Cosmology, they do not serve as replacement for standard courses in these subjects, and are rather aimed at educating students with hands-on analytic/numerical skills to attack new problems. -
The Exact Renormalization Group
A series of four lectures exploring the Exact Renormalization Group. This non-credit mini course will be offered at Perimeter Institute between April 16 and May 7 2008. -
Symmetry Principles in Physics: Variations on a Theme
These lectures will cover a number of topics related to the role of symmetry principles in physics. After introducing some basic definitions and distinctions, we will look at the changing role of the relativity principle from Galileo to Einstein (in special and general relativity). In particular we raise doubts as to the wisdom of treating Einstein's 1905 route to special relativity based on the relativity principle as a template for a fundamental reformulation of quantum theory, as some have recently proposed. We then examine the nature and meaning of Noether's 1918 theorems for global and local symmetries, and discuss some recent applications of Noether's "first" theorem in quantum mechanics and electromagnetism. We finish with two case studies: (i) the Galilean (boost) symmetry of quantum mechanics, and (ii) the problem of the arrow of time in statistical mechanics based on time-reversal invariant dynamics. Each lecture will be followed by a period for discussion. -
New Horizons In Fundamental Physics
This course is an introduction to some of the most exciting ideas in fundamental physics. The topics are chosen to represent areas of research currently conducted at Perimeter Institute. Each topic will be discussed for one or two weeks and will be lectured by a leading young researcher in each field. From deep conceptual issues on the meaning of quantum theory, passing through very sophisticated theories like string theory and loop quantum gravity all the way to cosmology and quantum information theory, this course is a challenging intellectual adventure. -
Special Topics in Physics
This course will provide an introduction to current research on the problem of time in quantum gravity and cosmology. This is one of the key problems that any successful quantum theory of gravity must solve. Different approaches to quantum gravity assume different answers to fundamental questions such as whether time is emergent or not, whether causality is emergent or not, and what is an observable in a theory of gravity. These problems have aspects which are technical as well as conceptual and philosophical aspects and we will discuss them all as well as their inter-relations. The course will begin with an introduction to the canonical formulation of general relativity and related dynamical systems. We will then study the standard material on the Hamiltonian quantization of general relativity and related time reparametrization invariant systems. This gives us the technical setting in which the problem of time is usually encountered in the contemporary literature on quantum gravity and quantum cosmology. Following this physical introduction we will read the key texts from the history of physics and philosophy concerning the meaning of time, such as Newton, Leibniz, Mach, Einstein etc. This will be followed by readings of papers and books from contemporary sources on this issue by physicists and philosophers. We will focus on two opposite views, the idea that time is emergent in quantum cosmology and the opposing idea that time is fundamental and is perhaps the only aspect of our macroscopic reality that is not emergent. -
Advanced General Relativity
Classes will meet on Wednesdays at the Perimeter Institute for Theoretical Physics, starting on January 9, 2008. The first class meeting is from 10:30 am to 12:00 pm in the Bob Room. The second class meeting is from 4:00 pm to 5:30 pm in the Alice Room. -
Spontaneous Broken Symmetry
A series of 8 lectures, 2 hours each on Spontaneous Broken Symmetry. -
Introduction to Supersymmetry
Alex Buchel gives an introduction to supersymmetry. -
Advanced Topics in Cosmology mini-course 2007
Advanced Topics in Cosmology mini-course 2007 with Slava Mukhanov -
Black Holes and Holography: Mini-Course - 2007
Black Holes and Holography: Mini-Course with Lenny Susskind -
Introduction to Quantum Groups 1 - 2007
From Quantum Mechanics to Quantum Groups The notion of 'quantization' commonly used in textbooks of quantum mechanics has to be specified in order to turn it into a defined mathematical operation. We discuss that on the trails of Weyl's phase space deformation, i.e. we introduce the Weyl-Moyal starproduct and the deformation of Poisson-manifolds. Generalizing from this, we understand, why Hopf-algebras are the most genuine way to apply 'quantization' to various other algebraic objects - and why this has direct physical applications.