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Video Library

Since 2002 Perimeter Institute has been recording seminars, conference talks, and public outreach events using video cameras installed in our lecture theatres.  Perimeter now has 7 formal presentation spaces for its many scientific conferences, seminars, workshops and educational outreach activities, all with advanced audio-visual technical capabilities.  Recordings of events in these areas are all available On-Demand from this Video Library and on Perimeter Institute Recorded Seminar Archive (PIRSA)

PIRSA is a permanent, free, searchable, and citable archive of recorded seminars from relevant bodies in physics. This resource has been partially modelled after Cornell University's arXiv.org. 

 

From topological insulator to weak scale flavor physics

Tuesday Apr 30, 2013
Speaker(s): 
Sichun Sun
(Flash PresentationMP3PDF)

In this talk, I will start with
briefly introducing some universal physics behind quantum hall and topological
insulator , which inspired a BSM flavor model. It intimately relates
deconstructed little Higgs to flavor structure: fermion masses, CKM etc.
 This new cousin of little Higgs, we call it little flavor, shares a 10-20
Tev cut-off scale with little Higgs, so as to explain flavor structure at
surprisingly low scale without rising FCNC problem.

Collection/Series: 
Particle Physics
Scientific Areas: 
Particle Physics

 

Transporting non-Gaussianity from sub- to super- horizon scales

Tuesday Apr 30, 2013
Speaker(s): 
David Mulryne
(Flash PresentationMP4 Low ResMP3PDF)

The non-Gaussian statistics of
the primordial density perturbation have become a key test of the inflationary
scenario of the very early universe. Currently many techniques are used to
calculate the non-Gaussian signatures of a given model of inflation. In
particular, simple super-horizon techniques such as the deltaN formalism are
often used for models with more than one field, while more technical field
theory techniques, referred to as the In-In formalism, are typically used for

Collection/Series: 
Cosmology & Gravitation
Scientific Areas: 
Cosmology

 

Laws of thermodynamics beyond the von Neumann regime

Monday Apr 29, 2013
Speaker(s): 
Oscar Dahlsten
(Flash PresentationMP4 Low ResMP3PDF)

A recent development in
information theory is the generalisation of quantum Shannon information theory
to the operationally motivated smooth entropy information theory, which
originates in quantum cryptography research. In a series of papers the first
steps have been taken towards creating a statistical mechanics based on smooth
entropy information theory. This approach turns out to allow us to answer
questions one might not have thought were possible in statistical mechanics,

Collection/Series: 
Perimeter Institute Quantum Discussions
Scientific Areas: 
Quantum Foundations

 

Diluted Magnetism in Iridates: Studies of Rh-doped Sr2Ir2O4

Thursday Apr 25, 2013
Speaker(s): 
Pat Clancy
(Flash PresentationMP4 Low ResMP3PDF)

The physics of iridium-based 5d transition metal oxides has attracted significant interest due to the potential for exotic magnetic and electronic ground states driven by strong spin-orbit coupling effects. Among the most extensively studied iridates is the layered perovskite Sr2IrO4, which was recently proposed as the first experimental realization of a novel Jeff=1/2 spin-orbital Mott insulating state.

Collection/Series: 
4 Corner Southwest Symposium 2013

 

Higgs Boson in Condensed Matter: From Polaron to Topological Insulator

Thursday Apr 25, 2013
Speaker(s): 
Zhou Li
(Flash PresentationMP4 Low ResMP3PDF)

 In this talk I will briefly review the polaron physics, which has helped theorists to conceive the BCS theory of conventional superconductors as well as experimentalists to discover high temperature superconductors in the cuprates. Specifically I will talk about how charge carriers obtain their
masses from coupling to the phonon field in one, two, three or higher dimensions. More recently, there is increasing interest in topological insulators where a gap can be opened which may suggest new version of Higgs mechanism in condensed matter.

Collection/Series: 
4 Corner Southwest Symposium 2013

 

Tensor Networks: an Overview

Thursday Apr 25, 2013
Speaker(s): 
Lukasz Cincio
(Flash PresentationMP4 Low ResMP3PDF)

Tensor network algorithms provide highly competitive tools for analyzing ground state properties of quantum lattice models in one and two spatial dimensions. The most notable examples involve matrix product states, projected entangled pair states and multiscale entanglement renormalization ansatz. The key underlying idea of all the approaches is to decompose a quantum many-body state into a carefully chosen network of tensors.
In this talk I will give an introduction to the subject and show how tensor networks can be used to characterize topological order.

Collection/Series: 
4 Corner Southwest Symposium 2013

 

New Neutron Scattering Results on the Enigmatic Ground State of the Pyrochlore Magnet Tb2Ti2O7

Thursday Apr 25, 2013
Speaker(s): 
Katharina Fristsch
(Flash PresentationMP4 Low ResMP3PDF)

The ground state of the candidate spin liquid pyrochlore magnet Tb2Ti2O7 (TTO) has been long debated. Despite theoretical expectations of magnetic order below ~1K based on classical Ising-like Tb3+ spins, earlier muSR and neutron scattering experiments showed no long range order down to 50mK. This motivated two theoretical scenarios to account for the apparently disordered ground state: a quantum spin ice scenario and a non-magnetic singlet ground state.

Collection/Series: 
4 Corner Southwest Symposium 2013

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