H
Hiroshi Yokoyama
Researcher at Kent State University
Publications - 468
Citations - 9540
Hiroshi Yokoyama is an academic researcher from Kent State University. The author has contributed to research in topics: Liquid crystal & Phase (matter). The author has an hindex of 46, co-authored 457 publications receiving 8999 citations. Previous affiliations of Hiroshi Yokoyama include Niigata University & Liquid Crystal Institute.
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Occurrence of the Myxosporean Emaciation Disease Caused by Enteromyxum leei in Cultured Malabar Grouper Epinephelus malabaricus
Machiko China,Hiroyuki Nakamura,Kaoru Hamakawa,Eishin Tamaki,Satoshi Miwa,Fei Meng,Hiroshi Yokoyama +6 more
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Molecular dynamics simulation study of the influence of chirality on the stability of the smectic Q liquid crystal phase.
TL;DR: Simulation results imply that the asymmetric intramolecular potentials and resultant chirality-dependent molecular conformations are primarily responsible for keeping the negative values of and the model SmQ structure.
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Imaging high frequency dielectric dispersion of surfaces and thin films by heterodyne force-detected scanning Maxwell-stress microscopy
Hiroshi Yokoyama,Mark J. Jeffery +1 more
TL;DR: The HFD-SMM as mentioned in this paper utilizes the nonlinearity of the electric Maxwell stress with respect to the field strength to create a low frequency heterodyne beat force from high frequency field components so as to make them observable even with a slowly responding cantilever.
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The resurrection of Myxobolus toyamai with a validation of a stunted polar capsule based on morphological evidence.
Hiroshi Yokoyama,Kazuo Ogawa +1 more
TL;DR: Results demonstrate that the second small polar capsule was indeed present in the myxosporean isolate, which indicates that M. toyamai is a valid scientific name, and molecular analysis of the 18S rDNA identified that this organism was the same organism as the American and Japanese isolates that have previously been registered as T. toyamasi.
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Nano-oxide fabrication on thin-films of 3d-metal compounds and alloys
Hiromi Kuramochi,Hiromi Kuramochi,Takashi Tokizaki,T. Onuki,Jun Okabayashi,Jun Okabayashi,Masaki Mizuguchi,Fumiyoshi Takano,H. Oshima,H. Oshima,Takashi Manago,Hiro Akinaga,Hiroshi Yokoyama +12 more
TL;DR: Nanometer-scale structures were fabricated by anodic oxidation using scanning probe microscopes on thin-films of various 3D-metal compounds and alloys on GaAs, such as MnAs, MnSb, Cr2O3, CoCr and NiFe material variation.