Ryo Taura scite author profile

A miniaturized very-high-frequency- driven inductively coupled plasma jet source has been developed for the production of high-temperature and high-density plasmas in a small space, and its application to the localized and ultrahigh-rate etching of silicon wafers has been studied. The developed plasma source consists of a 1-mm-diam discharge tube with a fine nozzle of 0.1 mm in diameter at one end and a three-turn solenoidal antenna wound around it. The electron density of atmospheric-pressure argon plasma jets blowing out from the nozzle was estimated to be 1014–1015 cm−3 by means of optical emission spectroscopy. By the addition of halogen gases into the downstream region of argon plasma jets, high-speed etching of fine holes of several hundreds μm in diameter has been investigated. The highest etch rates of 4000 μm/min and 14 μm/min have been achieved for silicon wafers and fused silica glass wafers, respectively.

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Plasma applications for biochip technology

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Taura

et al. 2003

Thin Solid Films

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Taura

Horiike

2001

J. Surf. Finish Soc. Jpn.

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Ryo Taura

Localized and ultrahigh-rate etching of silicon wafers using atmospheric-pressure microplasma jets

Plasma applications for biochip technology

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