Yasuhisa Ando scite author profile

This paper presents a simple method for accurately calculating quantum mechanical transmission probability and current across arbitrary potential barriers by using the multistep potential approximation. This method is applicable to various potential barriers and wells, including continuous variations of potential energy and electron effective mass. Various potential barrier structures and a hot-electron transistor are analyzed to show the feasibility of this method.

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Applying Micro-Texture to Cast Iron Surfaces to Reduce the Friction Coefficient Under Lubricated Conditions

Nakano

et al. 2007

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The tribological properties of cast iron have been investigated to determine the effects of micro-texturing the surfaces. The micro-textured surfaces were prepared by shot blasting or milling using a shaper. The surfaces with groove patterns and mesh patterns had higher friction coefficients than the flat surfaces. The surfaces with dimpled patterns had lower friction coefficients than the flat surfaces. The results indicated that the dimpled pattern had a beneficial effect by decreasing the friction.

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10-W/mm AlGaN-GaN HFET with a field modulating plate

Ando

Okamoto

Miyamoto

et al. 2003

IEEE Electron Device Lett.

258

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Improved Power Performance for a Recessed-Gate AlGaN–GaN Heterojunction FET With a Field-Modulating Plate

Okamoto

Ando

Hataya

et al. 2004

IEEE Trans. Microwave Theory Techn.

100

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A normally-off GaN FET with high threshold voltage uniformity using a novel piezo neutralization technique

et al. 2009

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Yasuhisa Ando

Calculation of transmission tunneling current across arbitrary potential barriers

Applying Micro-Texture to Cast Iron Surfaces to Reduce the Friction Coefficient Under Lubricated Conditions

10-W/mm AlGaN-GaN HFET with a field modulating plate

Improved Power Performance for a Recessed-Gate AlGaN–GaN Heterojunction FET With a Field-Modulating Plate

A normally-off GaN FET with high threshold voltage uniformity using a novel piezo neutralization technique

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