M. Yoneoka scite author profile

M. Yoneoka

4Publications

74Citation Statements Received

101Citation Statements Given

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Affiliations

National Institute of Technology, Kagoshima College, National Institute of Technology, Kumamoto College, Mitsubishi Electric (Japan)

Publications

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Electron, Neutron, and Proton Irradiation Effects on SiC Radiation Detectors

Rafı́

Pellegrini

Godignon

et al. 2020

IEEE Trans. Nucl. Sci.

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Owing to their low dark current, high transparency, high thermal conductivity, and potential radiation hardness, there is a special interest in silicon carbide (SiC) devices for radiation monitoring in radiation harsh environments and with elevated temperatures and, especially, for the plasma diagnostic systems in future nuclear fusion reactors. In this work, four-quadrant p-n junction diodes produced on epitaxial 4H-SiC substrates are studied. The impact of electron, neutron, and proton irradiations (up to fluences of 1 × 10 16 electrons (e)/cm 2 , 2 × 10 15 neutrons (n)/cm 2 , and 2.5 × 10 15 protons (p)/cm 2 , respectively) on the electrical characteristics is studied by means of current-voltage (I-V) and capacitance-voltage (C-V) techniques. Regardless of the particle type and applied fluences, the results show similar low reverse currents for irradiated SiC devices, which are at least about four orders of magnitude lower than comparable Si devices. The effects of irradiation on interquadrant resistance and charge build-up in the interquadrant isolation are assessed. Furthermore, device performance as a radiation detector is investigated upon exposure to a collimated 239 Pu-241 Am-244 Cm trialpha source. The performance at room temperature is preserved even for the highest irradiation fluences, despite the fact that the rectification character in electrical characteristics is lost. From the results, advantages of using SiC devices in alpha particle detection in harsh environments can be envisaged.

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Four-quadrant silicon and silicon carbide photodiodes for beam position monitor applications: electrical characterization and electron irradiation effects

Rafı́¹,

Pellegrini²,

Godignon³

et al. 2018

J. Inst.

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Silicon photodiodes are very useful devices as X-ray beam monitors in synchrotron radiation beamlines, as well as other astronomy and space applications. Owing to their lower susceptibility to variable temperature and illumination conditions, there is also special interest in silicon carbide devices for some of these applications. Moreover, radiation hardness of the involved technologies is a major concern for high-energy physics and space applications. This work presents four-quadrant photodiodes produced on ultrathin (10 m) and bulk Si, as well as on SiC epilayer substrates. An extensive electrical characterization has been carried out by using current-voltage (I-V) and capacitance-voltage (C-V) techniques. The impact of different temperature (from -50 ºC to 175 ºC) and visible light conditions on the electrical characteristics of the devices has been evaluated. Radiation effects caused by 2 MeV electron irradiation up to 1x10 14 , 1x10 15 and 1x10 16 e/cm 2 fluences have been studied. Special attention has been devoted to the study of charge build-up in diode interquadrant isolation, as well as its impact on interquadrant resistance. The study of these electrical properties and its radiation-induced degradation should be taken into account for device applications.

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Impact of neutron irradiation on optical performance of InGaAsP laser diodes

et al. 2000

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Impact of 20-MeV /spl alpha/-ray irradiation on the V-band performance of AlGaAs pseudomorphic HEMTs

Ohyama

Yajima

Simoen

et al. 2000

IEEE Trans. Nucl. Sci.

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M. Yoneoka

Electron, Neutron, and Proton Irradiation Effects on SiC Radiation Detectors

Four-quadrant silicon and silicon carbide photodiodes for beam position monitor applications: electrical characterization and electron irradiation effects

Impact of neutron irradiation on optical performance of InGaAsP laser diodes

Impact of 20-MeV /spl alpha/-ray irradiation on the V-band performance of AlGaAs pseudomorphic HEMTs

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