Shin Kajita scite author profile

Helium irradiation on tungsten changes the surface morphology dramatically by forming a nanometre-sized fibreform structure which could bring about serious problems for fusion reactors. From the experimental results in liner divertor simulators, it is revealed that the incident ion energy and surface temperature are key parameters for the formation of the structure. It is shown that the tungsten nanostructure is easily formed when the temperature is in the range 1000–2000 K, and the incident ion energy is higher than 20 eV. Furthermore, on the basis of the helium irradiation experiments performed in the divertor simulator NAGDIS-I, the initial formation process of the nanostructure is revealed. It is shown that the nanostructure formation is related to pinholes appearing on the bulk part of the material, and then, the rough structure develops to a much finer nanostructure. The nanostructure was also observed on the molybdenum surface that was exposed to the helium plasma. It increases interest in the possibility that nanostructure formation by helium irradiation is a common phenomenon that occurs on various metals.

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Formation of Nanostructured Tungsten with Arborescent Shape due to Helium Plasma Irradiation

Takamura

Ohno

Nishijima

et al. 2006

Plasma and Fusion Research

408

255

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Biped walking stabilization based on linear inverted pendulum tracking

Kajita

Morisawa²,

Miura³

et al. 2010

367

186

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TEM observation of the growth process of helium nanobubbles on tungsten: Nanostructure formation mechanism

Kajita

Yoshida

Yoshihara

et al. 2011

Journal of Nuclear Materials

244

160

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Shin Kajita

The 3D linear inverted pendulum mode: a simple modeling for a biped walking pattern generation

Formation process of tungsten nanostructure by the exposure to helium plasma under fusion relevant plasma conditions

Formation of Nanostructured Tungsten with Arborescent Shape due to Helium Plasma Irradiation

Biped walking stabilization based on linear inverted pendulum tracking

TEM observation of the growth process of helium nanobubbles on tungsten: Nanostructure formation mechanism

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