Nicholas E. Lanier
Los Alamos National Laboratory
9 Papers
67 Citations
Nicholas E. Lanier is an academic researcher from Los Alamos National Laboratory. The author has contributed to research in topics: Population & Computer science. The author has an hindex of 5, co-authored 9 publications.
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Papers
Characterization of supersonic radiation diffusion waves
Alastair Moore,T. M. Guymer,John M. Morton,Benjamin G Williams,John Kline,N. Bazin,Christopher D. B. Bentley,Shelly Allan,Katie Brent,Andrew Comley,Kirk Flippo,J. Cowan,J. Martin Taccetti,Katie Mussack-Tamashiro,Derek Schmidt,Christopher E. Hamilton,Kimberly A. DeFriend Obrey,Nicholas E. Lanier,Jonathan Workman,R. Mark Stevenson +19 more
TL;DR: In this article, the authors present results of higher-accuracy experiments than previously possible studying radiation flow through up to 7 high-temperature mean free paths of low-density, chlorine-doped polystyrene foam and silicon dioxide aerogel contained by an Au tube.
Designing radiation transport tests: Simulation-driven uncertainty-quantification of the COAX temperature diagnostic
Chris L. Fryer,Chris L. Fryer,A. Diaw,Christopher J. Fontes,Aimee Hungerford,John Kline,Heather Johns,Nicholas E. Lanier,Suzannah R. Wood,Todd Urbatsch +9 more
TL;DR: The COAX experiment is a platform design to test this transmission including standard radiograph and flux diagnostics as well as a temperature diagnostic measuring the population of excitation levels and ionization states of a dopant embedded within the target material.
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Designing Radiation Transport Tests: Simulation-Driven Uncertainty-Quantification of the COAX Temperature Diagnostic
Chris L. Fryer,A. Diaw,Christopher J. Fontes,Aimee Hungerford,John Kline,Heather Johns,Nicholas E. Lanier,Suzannah R. Wood,Todd Urbatsch +8 more
TL;DR: The COAX experiment as discussed by the authors is a platform designed to test this transmission including standard radiograph and flux diagnostics as well as a temperature diagnostic measuring the population of excitation levels and ionization states of a dopant embedded within the target material.
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Dopeable styrenic foams used in inertial fusion targets
TL;DR: In this paper, a qualitative distribution of pore size can be seen visually with scanning electron microscopy (SEM) and at low metal loadings SEM did not observe the submicron metal particles.
10
Richtmyer-Meshkov Instability Reshock Experiments Using Laser-Driven Double-Cylinder Implosions
J. M. Taccetti,Steven H. Batha,James R. Fincke,N. D. Delamater,Nicholas E. Lanier,Glenn R. Magelssen,R. M. Hueckstaedt,S. D. Rothman,Colin Horsfield,K. W. Parker +9 more
TL;DR: In this article, the authors present results of laser-driven double-cylinder implosions performed at the Omega laser facility with an emphasis on sending a second shock through an already shocked Richtmyer-Meshkov (RM) unstable interface.