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PSI 2016/2017 - Mathematica - Lecture 4
Erik Schnetter Perimeter Institute for Theoretical Physics
PIRSA:16090040 -
PSI 2016/2017 - Mathematica - Lecture 3
Erik Schnetter Perimeter Institute for Theoretical Physics
PIRSA:16090039 -
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PSI 2016/2017 - Mathematica - Lecture 1
Erik Schnetter Perimeter Institute for Theoretical Physics
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PSI 2016/2017 - Functions, "Functions", etc. - Lecture 1
Dan Wohns Perimeter Institute for Theoretical Physics
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Solitons and Spin-Charge Correlations in Strongly Interacting Fermi Gases
Martin Zwierlein Massachusetts Institute of Technology (MIT)
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Hierarchical growth of entangled states
John McGreevy University of California, San Diego
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Scaling geometries and DC conductivities
Sera Cremonini Lehigh University
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Viscous Electron Fluids: Higher-Than-Ballistic Conduction Negative Nonlocal Resistance and Vortices
Leonid Levitov Massachusetts Institute of Technology (MIT) - Department of Physics
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Universal Diffusion and the Butterfly Effect
Michael Blake Massachusetts Institute of Technology (MIT)
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Particle-Vortex duality and Topological Quantum Matter
Jeff Murugan Institute for Advanced Study (IAS) - School of Natural Sciences (SNS)
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PSI 2016/2017 - Classical Mechanics - Lecture 1
David Kubiznak Charles University
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PSI 2016/2017 - Complex Analysis - Lecture 1
Tibra Ali Perimeter Institute for Theoretical Physics
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Comparing Classical and Quantum Methods for Supervised Machine Learning
Ashish Kapoor Microsoft Corporation
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Classification on a quantum computer: Linear regression and ensemble methods
Maria Schuld University of KwaZulu-Natal
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Rejection and Particle Filtering for Hamiltonian Learning
Cassandra Granade Dual Space Solutions, LLC
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Physical approaches to the extraction of relevant information
David Schwab Northwestern University
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Learning with Quantum-Inspired Tensor Networks
Miles Stoudenmire Flatiron Institute
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Does relativistic causality constrain interference phenomena?
Markus Müller Austrian Academy of Sciences
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The Legacy of Emmy Noether
Emmy Noether (1882-1935) is well known for her famous contributions to abstract algebra and theoretical physics. Noether’s mathematical work has been divided into three ”epochs”. In the first (1908-19), she made contributions to the theories of algebraic invariants and number fields. Her work on differential invariants in the calculus of variations, Noether’s theorem, has been called ”one of the most important mathematical theorems ever proved in guiding the development of modern physics”. In the second epoch (1920-26), she began work that changed the face of abstract algebra. In her classic paper Idealtheorie in Ringbereichen (Theory of Ideals in Ring Domains, 1921) Noether developed the theory of ideals in commutative rings into a tool with wideranging applications. She made elegant use of the ascending chain condition, and objects satisfying it are named Noetherian in her honor. In the third epoch (1927-35), she published works on noncommutative algebras and hypercomplex number...
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The Legacy of Emmy Noether
Emmy Noether (1882-1935) is well known for her famous contributions to abstract algebra and theoretical physics. Noether’s mathematical work has been divided into three ”epochs”. In the first (1908-19), she made contributions to the theories of algebraic invariants and number fields. Her work on differential invariants in the calculus of variations, Noether’s theorem, has been called ”one of the most important mathematical theorems ever proved in guiding the development of modern physics”. In the second epoch (1920-26), she began work that changed the face of abstract algebra. In her classic paper Idealtheorie in Ringbereichen (Theory of Ideals in Ring Domains, 1921) Noether developed the theory of ideals in commutative rings into a tool with wideranging applications. She made elegant use of the ascending chain condition, and objects satisfying it are named Noetherian in her honor. In the third epoch (1927-35), she published works on noncommutative algebras and hypercomplex number...
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PSI 2016/2017 - Mathematica (Schnetter)
PSI 2016/2017 - Mathematica (Schnetter) -
PSI 2016/2017 - Faculty Presentations
PSI 2016/2017 - Faculty Presentations -
PSI 2016/2017 - Functions, "Functions", etc. (Wohns)
PSI 2016/2017 - Functions, "Functions", etc. (Wohns) -
Low Energy Challenges for High Energy Physicists II
Low Energy Challenges for High Energy Physicists II
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PSI 2016/2017 - Lie Groups and Lie Algebras (Xu)
PSI 2016/2017 - Lie Groups and Lie Algebras (Xu) -
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PSI 2016/2017 - Classical Mechanics (Kubiznak)
PSI 2016/2017 - Classical Mechanics (Kubiznak) -
PSI 2016/2017 - Complex Analysis (Ali)
PSI 2016/2017 - Complex Analysis (Ali) -
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Formulating and Finding Higher-Order Interference
Formulating and Finding Higher-Order Interference