Mechanism of Radical Control in Capacitive RF Plasma for ULSI Processing
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概要
- 論文の詳細を見る
The radicals of capacitive plasmas actually used in mass production were analyzed using various measurement systems. The composition of radicals in bulk plasma depends on the gas chemistry, the dissociation process, and interaction with the wall. It is revealed that parent gas (C4F8) is dissociated by multiple collision with electrons according to τ·ne<σv>, where τ is the residence time, ne is the electron density, σ is the dissociation collision cross section and v is the electron velocity. A high-performance etching process, which can realize 0.09 µmφ contact holes with aspect ratio of 11, was achieved using a short residence time to suppress the excess dissociation and the control of deposition species through the addition of O2 to C4F8/Ar plasma as well as the reduction of the density of F radicals through the reaction with the Si wall.
- 1998-04-30
著者
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Tatsumi Tetsuya
Plasma Technology Laboratory Association Of Super-advanced Electronics Technologies (aset)
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MORISHITA Satoshi
Plasma Technology Laboratory, Association of Super-Advanced Electronics Technologies (ASET)
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HAYASHI Hisataka
Plasma Technology Laboratory, Association of Super-Advanced Electronics Technologies (ASET)
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HIKOSAKA Yukinobu
Plasma Technology Laboratory, Association of Super-Advanced Electronics Technologies (ASET)
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NODA Shuichi
Plasma Technology Laboratory, Association of Super-Advanced Electronics Technologies (ASET)
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OKIGAWA Mitsuru
Plasma Technology Laboratory, Association of Super-Advanced Electronics Technologies (ASET)
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INOUE Masami
Plasma Technology Laboratory, Association of Super-Advanced Electronics Technologies (ASET)
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Itabashi Naoshi
Plasma Technology Laboratory, Association of Super-advanced Electronics Technologies
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Noda Shuichi
Plasma Technology Laboratory, Association of Super-advanced Electronics Technologies
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Tatsumi Tetsuya
Plasma Technology Laboratory, Association of Super-advanced Electronics Technologies
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Morishita Satoshi
Plasma Technology Laboratory, Association of Super-advanced Electronics Technologies
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Okigawa Mitsuru
Plasma Technology Laboratory, Association of Super-advanced Electronics Technologies
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Hayashi Hisataka
Plasma Technology Laboratory, Association of Super-advanced Electronics Technologies
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Hikosaka Yukinobu
Plasma Technology Laboratory, Association of Super-advanced Electronics Technologies
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Inoue Masami
Plasma Technology Laboratory, Association of Super-advanced Electronics Technologies
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