Search results
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Talk
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Engineering Microbial Communities: Bottom-Up Strategies for Assembly and Resource-Based Control
Sergei MaslovICTS:30767 -
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Metabolic Strategies and Resource Preferences in Microbial Communities in Boom-and-Bust Environments
Sergei MaslovICTS:30763 -
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Talk
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Monte Carlo Field-Theoretic Simulations Applied to Block Copolymer Melts
Mark Matsen University of Waterloo
PIRSA:13120009 -
Transition Pathways Connecting Stable and Metastable Phases
An-Chang Shi McMaster University
PIRSA:13120010 -
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Modelling Materials Microstructure Across Scales using Phase Field Methods
Nikolas Provatas McGill University
PIRSA:13120012 -
Predicting plasticity with soft vibrational modes: from dislocations to glasses
Joerg Rottler University of British Columbia
PIRSA:13120013 -
Circumferential gap propagation in an anisotropic elastic bacterial sacculus
Andrew Rutenberg Dalhousie University
PIRSA:13120014 -
Slow Melting and Fast Crystals
PIRSA:13120015
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Talk
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13/14 PSI - Condensed Matter - Lecture 15
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Anushya Chandran Perimeter Institute for Theoretical Physics
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Roger Melko University of Waterloo
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Xiao-Gang Wen Massachusetts Institute of Technology (MIT) - Department of Physics
PIRSA:13110045 -
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13/14 PSI - Condensed Matter - Lecture 14
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Anushya Chandran Perimeter Institute for Theoretical Physics
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Roger Melko University of Waterloo
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Xiao-Gang Wen Massachusetts Institute of Technology (MIT) - Department of Physics
PIRSA:13110044 -
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13/14 PSI - Condensed Matter - Lecture 13
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Anushya Chandran Perimeter Institute for Theoretical Physics
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Roger Melko University of Waterloo
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Xiao-Gang Wen Massachusetts Institute of Technology (MIT) - Department of Physics
PIRSA:13110043 -
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13/14 PSI - Condensed Matter - Lecture 12
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Anushya Chandran Perimeter Institute for Theoretical Physics
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Roger Melko University of Waterloo
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Xiao-Gang Wen Massachusetts Institute of Technology (MIT) - Department of Physics
PIRSA:13110042 -
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13/14 PSI - Condensed Matter - Lecture 11
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Anushya Chandran Perimeter Institute for Theoretical Physics
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Roger Melko University of Waterloo
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Xiao-Gang Wen Massachusetts Institute of Technology (MIT) - Department of Physics
PIRSA:13110041 -
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13/14 PSI - Condensed Matter - Lecture 10
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Anushya Chandran Perimeter Institute for Theoretical Physics
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Roger Melko University of Waterloo
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Xiao-Gang Wen Massachusetts Institute of Technology (MIT) - Department of Physics
PIRSA:13110038 -
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13/14 PSI - Condensed Matter - Lecture 9
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Anushya Chandran Perimeter Institute for Theoretical Physics
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Roger Melko University of Waterloo
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Xiao-Gang Wen Massachusetts Institute of Technology (MIT) - Department of Physics
PIRSA:13110037 -
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13/14 PSI - Condensed Matter - Lecture 8
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Anushya Chandran Perimeter Institute for Theoretical Physics
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Roger Melko University of Waterloo
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Xiao-Gang Wen Massachusetts Institute of Technology (MIT) - Department of Physics
PIRSA:13110036 -
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Talk
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Talk
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Hofstadter’s Butterfly and interaction driven quantum Hall ferromagnetism in graphene
Philip Kim Columbia University
PIRSA:13110070 -
Unparticles and Fermi Arcs in the Cuprates
Philip Phillips University of Illinois Urbana-Champaign
PIRSA:13100131 -
Entanglement at strongly-interacting quantum critical points
Roger Melko University of Waterloo
PIRSA:13110071 -
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Many-body localization: entanglement, emergent conservation laws, and the structure of eigenstates
Dmitry Abanin Princeton University
PIRSA:13110073 -
Quantum quenches & holography
Robert Myers Perimeter Institute for Theoretical Physics
PIRSA:13110074 -
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Majorana State Properties in Semiconductor and Oxide Superconducting Quantum Wires
Allan MacDonald The University of Texas at Austin
PIRSA:13110076
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Hybrid conformal field theories
PIRSA:13100114 -
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Exact results for boundaries and domain walls in 2d supersymmetric theories
Takuya Okuda University of Tokyo
PIRSA:13100115 -
Exact Results In Two-Dimensional (2,2) Supersymmetric Gauge Theories With Boundary
Kentaro Hori University of Tokyo
PIRSA:13100116 -
Algebraic structures in massive (2,2) theories
Davide Gaiotto Perimeter Institute for Theoretical Physics
PIRSA:13100117 -
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Talk
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13/14 PSI - Quantum Field Theory I - Lecture 13
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:13100038 -
13/14 PSI - Quantum Field Theory I - Lecture 12
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:13100037 -
13/14 PSI - Quantum Field Theory I - Lecture 11
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:13100036 -
13/14 PSI - Quantum Field Theory I - Lecture 10
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:13100035 -
13/14 PSI - Quantum Field Theory I - Lecture 9
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:13100034 -
13/14 PSI - Quantum Field Theory I - Lecture 8
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:13100030 -
13/14 PSI - Quantum Field Theory I - Lecture 7
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:13100029 -
13/14 PSI - Quantum Field Theory I - Lecture 6
Freddy Cachazo Perimeter Institute for Theoretical Physics
PIRSA:13100028
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Endpoints
PIRSA:13090082 -
Future Learning
PIRSA:13090080 -
Provision
PIRSA:13090081 -
Tools
PIRSA:13090083 -
Opening Address and Summit Launch
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Jatin Nathwani University of Waterloo
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Neil Turok University of Edinburgh
PIRSA:13090078 -
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Benchmark Session - Where Do We Go From Here?
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Michael Brooks The Bay School of San Francisco
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Guilherme Cintra Gera Venture Capital
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Graham Brown-Martin Little Red Pill
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Susan Opok Promoting Equality in African Schools (PEAS)
PIRSA:13090079 -
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Summit plenary - Smart Kids are Doing it for Themselves
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Michael Brooks The Bay School of San Francisco
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Chris Olah Thiel Foundation
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Noor Siddiqui Thiel Foundation
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Kendall White Jane Goodall Institute of Canada
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Samuel Levin Oxford University - Biology
PIRSA:13090084 -
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ICTP-ICTS Winter School on Quantitative Systems Biology
Biology is undergoing a revolution. Advances in experimental techniques are providing data of unprecedented quality and detail on the mechanisms that operate in living systems, at scales ranging from molecules and molecular networks, to organisms, populations and ecosystems. It is clear that new theoretical and mathematical approaches are required if we are to learn from this flood of data. In response to this need, a large number of researchers from mathematics, physics and engineering are growing interested in biological problems. However, biology presents high barriers to entry: the sheer breadth of biological phenomenology, the rapid progress of the field, and a language of scientific discourse often inaccessible to the outsider. The ICTP-ICTS Winter School in Quantitative Systems Biology 2013, targeted at participants with quantitative backgrounds, is intended to help overcome these barriers.Both ICTP and ICTS have a successful track record of providing researchers access to the f...
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ICTP-ICTS Winter School on Quantitative Systems Biology
Biology is undergoing a revolution. Advances in experimental techniques are providing data of unprecedented quality and detail on the mechanisms that operate in living systems, at scales ranging from molecules and molecular networks, to organisms, populations and ecosystems. It is clear that new theoretical and mathematical approaches are required if we are to learn from this flood of data. In response to this need, a large number of researchers from mathematics, physics and engineering are growing interested in biological problems. However, biology presents high barriers to entry: the sheer breadth of biological phenomenology, the rapid progress of the field, and a language of scientific discourse often inaccessible to the outsider. The ICTP-ICTS Winter School in Quantitative Systems Biology 2013, targeted at participants with quantitative backgrounds, is intended to help overcome these barriers.Both ICTP and ICTS have a successful track record of providing researchers access to the f...
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Waterloo Soft Matter Theory
Waterloo Soft Matter Theory 2013 -
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13/14 PSI - Quantum Field Theory II
13/14 PSI - Quantum Field Theory II -
PI-UIUC 2013
PI-UIUC Joint Workshop On Strongly Correlated Quantum Many-Body Systems -
Physics Around Mirror Symmetry
Physics Around Mirror Symmetry -
Transport of Particles in Turbulent Flows: Experimental, Computational and Theoretical Investigations
Particle-laden turbulent flows are ubiquitous in nature, laboratories, and modern industry: examples include the transport of aerosols and pollutants in the atmosphere, the advection of rain drops in clouds, the movement of swarms of micro-organisms like phytoplankton in the oceans, and fluid flows with colloids or polymer additives in laboratories or industries. It behooves us, therefore, to develop a detailed understanding of the physics of particle transport in turbulent flows. Research in this area has been growing apace on all fronts - experimental, computational, and theoretical. In particular, the transport, coalescence, and coagulation of particles, advected by a turbulent flows, has attracted the attention of several groups. In addition to the complexity that arises from the turbulence of advecting flows, we have to confront the multiscale nature of particle-fluid interactions, for particle sizes can range from nanometre to centimetre scales; and these particles can often cha...
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Transport of Particles in Turbulent Flows: Experimental, Computational and Theoretical Investigations
Particle-laden turbulent flows are ubiquitous in nature, laboratories, and modern industry: examples include the transport of aerosols and pollutants in the atmosphere, the advection of rain drops in clouds, the movement of swarms of micro-organisms like phytoplankton in the oceans, and fluid flows with colloids or polymer additives in laboratories or industries. It behooves us, therefore, to develop a detailed understanding of the physics of particle transport in turbulent flows. Research in this area has been growing apace on all fronts - experimental, computational, and theoretical. In particular, the transport, coalescence, and coagulation of particles, advected by a turbulent flows, has attracted the attention of several groups. In addition to the complexity that arises from the turbulence of advecting flows, we have to confront the multiscale nature of particle-fluid interactions, for particle sizes can range from nanometre to centimetre scales; and these particles can often cha...
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13/14 PSI - Statistical Mechanics
13/14 PSI - Statistical Mechanics -
13/14 PSI - Quantum Field Theory I
13/14 PSI - Quantum Field Theory I -
WGSI - Equinox Summit: Education 2030
Waterloo Global Science Initiative Equinox Summit: Education 2030. Also booked: GREEN ROOM SKY ROOM READING ROOM/LIBRARY.