Composition and Growth Mechanisms of a Boron Layer Formed Using the Molecular Layer Doping Process
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概要
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A new doping process, molecular layer doping (MLD), allows for formation of extremely shallow junctions. We have studied the composition and growth mechanisms of boron layers formed on a Si substrate through the MLD process using diborane as the boron feed gas. At temperatures below 600℃, a pure boron layer is formed through the deposit of boron generated through thermal decomposition of diborane. At temperatures over 700℃, the boron layer contained silicon. At 800℃, a boron silicide layer is formed through reaction of boron with the silicon in the substrate. The growth rate of a boron silicide layer depends on the orientation of the Si substrate. However, that of a pure boron layer does not depend on the orientation. The composition of the layer after annealing at 900℃ was analyzed using the RBS method and was found to be SiB_6. Results of MLD processes on several kinds of underlying layers (e.g., SiO_2, Si_3N_4, poly-Si) are also presented.
- 社団法人応用物理学会の論文
- 1993-10-15
著者
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Aoki K
Texas Instruments Japan Ltd. Ibaraki Jpn
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Aoki K
Toshiba Corp. Yokohama Jpn
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Saitoh N
Osaka Univ. Osaka Jpn
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Kojima Y
Nagoya Univ. Nagoya Jpn
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SAITOH Naoto
Takatsuka Unit, Seiko Instruments Inc.
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AKAMINE Tadao
Takatsuka Unit, Seiko Instruments Inc.
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AOKI Kenji
Takatsuka Unit, Seiko Instruments Inc.
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KOJIMA Yoshikazu
Takatsuka Unit, Seiko Instruments Inc.
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Akamine Tadao
Takatsuka Unit Seiko Instruments Inc.
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