Katsutoshi Sugawara scite author profile

Ensuring gate oxide reliability and low switching loss is required for a trench gate SiC-MOSFET. We developed a trench gate SiC-MOSFET with a p-type region, named Bottom P-Well (BPW), formed at the bottom of the trench gate for bottom oxide protection. We can see an effective reduction in the maximum bottom oxide electric field (Eox) and a significant improvement in dynamic characteristics with a grounded BPW, whose dV/dt is 76 % larger than that with a floating BPW due to reduction in gate-drain capacitance (Cgd). The grounded BPW is found to be an effective means of both suppressing Eox and reducing switching loss.

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Very low-temperature epitaxial growth of silicon and germanium using plasma-assisted CVD

Sakuraba¹,

Muto²,

Mori³

et al. 2008

Thin Solid Films

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Raman scattering study of phonons in KCuF3

Ueda¹,

Sugawara²,

Kondo³

et al. 1991

Solid State Communications

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Atomically Controlled Plasma Processing for Group IV Quantum Heterostructure Formation

Sakuraba

Sugawara

Murota

2011

KEM

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By low-temperature epitaxial growth of group IV semiconductors utilizing electron-cyclotron-resonance (ECR) plasma enhanced chemical vapor deposition (CVD), atomically controlled plasma processing has been developed in order to achieve atomic-layer doping and heterostructure formation with nanometer-order thickness control as well as smooth and abrupt interfaces. In this paper, typical recent progress in plasma processing is reviewed as follows: (1) By N and B atomic-layer formation and subsequent Si epitaxial growth on Si(100) without substrate heating, heavy atomic-layer doping was demonstrated. Most of the incorporated N or B atoms can be confined in about a 2-nm-thick region of the atomic-layer doped Si film. (2) Using an 84 % relaxed Ge buffer layer formed on Si(100) by ECR plasma enhanced CVD, formation of a B-doped highly strained Si film with nanometer-order thickness was achieved and hole mobility enhancement as high as about 3 was observed in the highly strained Si film.

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Characteristics of c-axis oriented large grain ZnO films prepared by low-pressure MO-CVD method

et al. 2002

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