First-Principles Simulation on Thickness Dependence of Piezoresistance Effect in Silicon Nanosheets
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概要
- 論文の詳細を見る
We have simulated the piezoresistance coefficients of single-crystal silicon nanosheets on the basis of the first-principles calculations of model structures. The carrier conductivities of the hydrogen-terminated silicon nanosheet models with (001) surface orientation have been calculated using band carrier densities and their corresponding effective mass tensors derived from the two-dimensional band diagram by our original approach for a small amount of carrier occupation. The p-type shear piezoresistance coefficient for principal axes on the (001) plane increases in connection with the longitudinal and transverse ones for the [110] tensile stress, as the thickness of the nanosheet decreases. We have obtained a high piezoresistance coefficient $\pi_{s}$ of $450\times 10^{-11}$ Pa-1 for an approximately 1 nm thick silicon (001) nanosheet model. It is expected that the p-type ultrathin silicon (001) nanosheet will be a suitable candidate for nanoscale piezoresistors owing to its giant piezoresistivity.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2010-06-25
著者
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TORIYAMA Toshiyuki
Department of Micro System Technology, Faculty of Science and Engineering, Ritsumeikan University
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Koichi Nakamura
Ritsumeikan Global Innovation Research Organization, Ritsumeikan University, Kusatsu, Shiga 525-8577, Japan
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Sugiyama Susumu
Ritsumeikan Global Innovation Research Organization, Ritsumeikan University, Kusatsu, Shiga 525-8577, Japan
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Susumu Sugiyama
Ritsumeikan Global Innovation Research Organization, Ritsumeikan University, Kusatsu, Shiga 525-8577, Japan
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Nakamura Koichi
Ritsumeikan Global Innovation Research Organization, Ritsumeikan University, Kusatsu, Shiga 525-8577, Japan
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