K
Kunihide Tachibana
Researcher at Osaka Electro-Communication University
Publications - 214
Citations - 6316
Kunihide Tachibana is an academic researcher from Osaka Electro-Communication University. The author has contributed to research in topics: Chemical vapor deposition & Thin film. The author has an hindex of 37, co-authored 214 publications receiving 5940 citations. Previous affiliations of Kunihide Tachibana include Eindhoven University of Technology & Kyoto Institute of Technology.
Papers
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Journal ArticleDOI
The 2012 Plasma Roadmap
Seiji Samukawa,Masaru Hori,Shahid Rauf,Kunihide Tachibana,Peter Bruggeman,Gerrit Kroesen,J. Christopher Whitehead,Anthony B. Murphy,Alexander Gutsol,Svetlana Starikovskaia,Uwe Kortshagen,Jean-Pierre Boeuf,Timothy John Sommerer,Mark J. Kushner,Uwe Czarnetzki,Nigel J. Mason +15 more
TL;DR: The 2012 plasma road map as mentioned in this paper provides guidance to the field by reviewing the major challenges of low-temperature plasma physics and their many sub-fields, as well as a review of the current state of the art in the field.
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Observation of Coulomb-Crystal Formation from Carbon Particles Grown in a Methane Plasma
TL;DR: A Coulomb crystal was successfully formed as a result of the growth of spherical and monodisperse carbon particles suspended in a methane plasma as discussed by the authors, which was confirmed to be hexagonal from top-and side-view photographs.
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Plasmas as metamaterials: a review
Osamu Sakai,Kunihide Tachibana +1 more
TL;DR: In this article, the authors review the new functions of plasmas as metamaterials, including a photonic-crystal-like behavior, a negative refractive index state and a nonlinear bifurcated electric response.
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A streamer-like atmospheric pressure plasma jet
TL;DR: In this article, the properties of an atmospheric pressure plasma jet (APPJ) in a single-cell dielectric capillary configuration were examined using spatially and temporally resolved optical diagnostics.
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Investigation of discharge mechanisms in helium plasma jet at atmospheric pressure by laser spectroscopic measurements
TL;DR: In this article, the authors measured spatiotemporal structures of excited species by laser spectroscopic methods in a plasma jet, which was driven by a bipolar impulse voltage pulse train of the order of kilohertz repetition rate applied across a pair of electrodes wrapped around a glass tube with a helium gas flow.