S
S. A. Basun
Researcher at Wright-Patterson Air Force Base
Publications - 29
Citations - 424
S. A. Basun is an academic researcher from Wright-Patterson Air Force Base. The author has contributed to research in topics: Photorefractive effect & Electron paramagnetic resonance. The author has an hindex of 11, co-authored 26 publications receiving 385 citations. Previous affiliations of S. A. Basun include Universal Technical Institute.
Papers
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Journal ArticleDOI
Asymmetric Freedericksz transitions from symmetric liquid crystal cells doped with harvested ferroelectric nanoparticles
TL;DR: It is demonstrated for the first time that the electrical pre-history of the cells imparts significant polarity sensitivity to the Freedericksz characteristics.
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Dipole moment and spontaneous polarization of ferroelectric nanoparticles in a nonpolar fluid suspension
TL;DR: In this paper, the authors measured the ferroelectric properties of the smallest achieved BaTiO${}_{3}$ nanoparticles and determined dipole moment and spontaneous polarization as a function of size and concentration.
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Harvesting Single Ferroelectric Domain Stressed Nanoparticles for Optical and Ferroic Applications
Gary Cook,J. L. Barnes,J. L. Barnes,S. A. Basun,S. A. Basun,Dean R. Evans,Ronald F. Ziolo,Arturo Ponce,V. Yu. Reshetnyak,Anatoliy Glushchenko,Partha P. Banerjee +10 more
TL;DR: In this article, the authors describe techniques to selectively harvest single ferroelectric domain nanoparticles of BaTiO3 as small as 9 nm from a plethora of nanoparticles produced by mechanical grinding.
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Electric field interactions and aggregation dynamics of ferroelectric nanoparticles in isotropic fluid suspensions
TL;DR: In this article, the dynamics of aggregation of stressed ferroelectric nanoparticles as small as 9 nm in diameter are investigated in a nonpolar (isotropic) fluid, with the concentration of nanoparticles varying by four orders of magnitude.
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Uncovering the mystery of ferroelectricity in zero dimensional nanoparticles
Yury A. Barnakov,Idehenre Ighodalo U,Idehenre Ighodalo U,S. A. Basun,Trevor A. Tyson,Dean R. Evans +5 more
TL;DR: In this article, the authors demonstrate that the top-down approach of wet ball-milling not only results in fragmented materials on the nanoscale, but also is responsible for a mechanochemical synthesis of metal carboxylates forming at the nanoparticles' surface.