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Daniel J. Gauthier
Researcher at Ohio State University
Publications - 471
Citations - 16851
Daniel J. Gauthier is an academic researcher from Ohio State University. The author has contributed to research in topics: Slow light & Brillouin scattering. The author has an hindex of 63, co-authored 464 publications receiving 15173 citations. Previous affiliations of Daniel J. Gauthier include Mines ParisTech & Centre national de la recherche scientifique.
Papers
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An angle-dependent estimation of CT x-ray spectrum from rotational transmission measurements.
TL;DR: The authors propose an angle-dependent estimation technique, where the incident spectra across a wide range of angular trajectories can be estimated accurately with only a single phantom and a single axial scan in the absence of the knowledge of the bowtie filter.
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Refractive Changes after Descemet Stripping Endothelial Keratoplasty: A Simplified Mathematical Model
TL;DR: Analysis of this DSEK mathematical model suggests that the ratio of central to peripheral graft thickness (CP ratio) and central thickness can have significant effect on refractive change where smaller CP ratios and larger graft thicknesses result in larger hyperopic shifts.
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Transverse patterns for all-optical switching
TL;DR: In this article, the authors observed that transverse optical patterns, generated by nonlinear interactions, rotate in the presence of a weak switch beam using an experimental system with increased symmetry.
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Local CFD kinetic model of cadmium vaporization during fluid bed incineration of municipal solid waste.
Jose Miguel Soria,Jose Miguel Soria,Daniel J. Gauthier,Quentin Falcoz,Gilles Flamant,Germán Mazza +5 more
TL;DR: A kinetic rate law for the Cd release, derived from the CFD thermal analysis of the combusting particle, is proposed and shows that the proposed CFD model represents very well the evolution of the HM release for the considered range of bed temperature.
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High-order optical nonlinearity at low light levels
TL;DR: In this paper, the authors observed a nonlinear optical process in a gas of cold atoms that simultaneously displays the largest reported fifth-order nonlinear susceptibility (chi^(5) = 1.9x10^{-12} (m/V)^4 and high transparency.