MONTE CARLO SIMULATION OF GIANT PIEZORESISTANCE EFFECT IN p-TYPE SILICON NANOSTRUCTURES

Autor:	V. Aubry-Fortuna, C. Chassat, T. T. Trang Nghiem, Philippe Dollfus, A. Bosseboeuf
Rok vydání:	2011
Předmět:	Materials science Silicon Condensed matter physics Monte Carlo method Nanowire chemistry.chemical_element Statistical and Nonlinear Physics Nanotechnology Conductivity Condensed Matter Physics Thermal conduction Piezoresistive effect Stress (mechanics) chemistry Electronic band structure
Zdroj:	Modern Physics Letters B. 25:995-1001
ISSN:	1793-6640 0217-9849
Popis:	We present a study of the giant piezoresistance effect in p-type silicon using full-band Monte Carlo simulation based on 30-band k.p calculation. This effect has been demonstrated experimentally in Si nanowires by He and Yang. By including the well-known strain effect on the band structure, and by introducing a law of variation of the surface potential according to the applied mechanical stress, we can reproduce this effect. This variation of surface potential modulates the depletion depth and then the conductivity of the structure. This modulation induces a strong variation of the total amount of carriers available for the conduction, which increases drastically this piezoresistive effect. This is probably the main origin of this effect, which may be used to achieve high performance MEMS sensors.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::1c805bcc608cf86cd4dcd6f6de74be79 https://doi.org/10.1142/s0217984911026711 Zobrazit plný text záznamu