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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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Condition for alternans and its control in a two-dimensional mapping model of paced cardiac dynamics.
TL;DR: It is shown that the gain gamma necessary to establish control may vary significantly depending on the value of the slope of the so-called standard restitution curve, but that the product gammaS12 stays approximately in the same range.
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Security of high-dimensional quantum key distribution protocols using Franson interferometers
Thomas Brougham,Stephen M. Barnett,Kevin McCusker,Kevin McCusker,Paul G. Kwiat,Daniel J. Gauthier +5 more
TL;DR: In this paper, the authors show that a single pair of Franson interferometers is not a practical approach to secure high-dimensional energy-time entanglement-based QKD.
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Kinetics of heavy metal vaporization from model wastes in a fluidized bed.
TL;DR: Temperature (especially for porous alumina) and mineral matrix have a strong influence on the HM vaporization, but HCl concentration and HM initial speciation do not, and the gas composition and the initial metal concentration are significant parameters.
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Slow light on Gbit/s differential-phase-shift-keying signals.
TL;DR: Performance comparison between NRZ-DPSK and RZ-dPSK shows that robustness to slow-light-induced pattern dependence is modulation format dependent, and detuning the SBS gain profile achieves 3-dB Q-factor improvement by the reduction of pattern dependence.
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On-sun operation of a 150 kWth pilot solar receiver using dense particle suspension as heat transfer fluid
I. Perez Lopez,Hadrien Benoit,Daniel J. Gauthier,Jean-Louis Sans,Emmanuel Guillot,Germán Mazza,Gilles Flamant +6 more
TL;DR: In this article, a 16-tube, 150 kW solar receiver using a dense gas-particle suspension (around 30% solid volume fraction) flowing upward as HTF was tested under various ranges of operating parameters: solid mass flow rate (660-1760 kg/h), input solar power (60-142 kW), and particle temperature before entering the solar receiver (40-180 °C).