V
Vickie E. Lynch
Researcher at Oak Ridge National Laboratory
Publications - 101
Citations - 5627
Vickie E. Lynch is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Tokamak & Blackout. The author has an hindex of 31, co-authored 101 publications receiving 4985 citations.
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Journal ArticleDOI
Mantid - Data Analysis and Visualization Package for Neutron Scattering and $μ SR$ Experiments
Owen Arnold,Jean-Christophe Bilheux,Jose M. Borreguero,A. Buts,Stuart I. Campbell,Laurent Chapon,Mathieu Doucet,Nick Draper,R. Ferraz Leal,M. Gigg,Vickie E. Lynch,Anders J. Markvardsen,D.J. Mikkelson,D.J. Mikkelson,R.L. Mikkelson,R.L. Mikkelson,Ross Miller,K. Palmen,Peter G. Parker,G. Passos,Toby Perring,Peter F. Peterson,Shelly Ren,Michael A. Reuter,Andrei T. Savici,Jon W. Taylor,R.J. Taylor,R. Tolchenov,Wenduo Zhou,Janik L. Zikovsky +29 more
TL;DR: The Mantid framework as discussed by the authors is a software solution developed for the analysis and visualization of neutron scattering and muon spin measurements, which is jointly developed by software engineers and scientists at the ISIS Neutron and Muon Facility and the Oak Ridge National Laboratory.
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Critical points and transitions in an electric power transmission model for cascading failure blackouts
TL;DR: Cascading failure in a simplified transmission system model as load power demand is increased is examined and it is found that operation near critical points can produce power law tails in the blackout size probability distribution similar to those observed.
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Criticality in a cascading failure blackout model
TL;DR: In this article, the authors verify and examine criticality in a 1000 bus network with an AC blackout model that represents many of the interactions that occur in cascading failure and evaluate the overall probability and risk of blackouts from a global perspective.
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Anomalous diffusion and exit time distribution of particle tracers in plasma turbulence model
TL;DR: In this paper, the authors explore the character of transport in a plasma turbulence model with avalanche transport, and the motion of tracer particles has been followed, both the time evolution of the moments of the distribution function of the tracer particle radial positions, 〈|r(t)−r(0)|n〉, and their finite scale Lyapunov number are used to determine the anomalous diffusion exponent, ν.
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Fractional diffusion in plasma turbulence
TL;DR: In this paper, a transport model with fractional derivatives in space and time was proposed to model the transport of tracer particles in three-dimensional, resistive, pressure-gradient-driven plasma turbulence.