Quantum transport in a nanosize double-gate metal-oxide-semiconductor field-effect transistor

Croitoru Mihail; Gladilin Vladimir; Fomin Vladimir; Devreese Josef T.; Magnus Wim; Schoenmaker Wim J.; Soree Bart

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115

SM ISO690:2012

CROITORU, Mihail, GLADILIN, Vladimir, FOMIN, Vladimir, DEVREESE, Josef T., MAGNUS, Wim, SCHOENMAKER, Wim J., SOREE, Bart. Quantum transport in a nanosize double-gate metal-oxide-semiconductor field-effect transistor. In: Journal of Applied Physics, 2004, vol. 96, pp. 2305-2310. ISSN 0021-8979. DOI: https://doi.org/10.1063/1.1767619

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Journal of Applied Physics

Volumul 96 / 2004 / ISSN 0021-8979 /ISSNe 1089-7550

Quantum transport in a nanosize double-gate metal-oxide-semiconductor field-effect transistor

DOI:https://doi.org/10.1063/1.1767619

Pag. 2305-2310

Croitoru Mihail¹², Gladilin Vladimir¹², Fomin Vladimir¹²³, Devreese Josef T.¹³, Magnus Wim⁴, Schoenmaker Wim J.⁴, Soree Bart⁴

¹ University of Antwerp,
² Moldova State University,
³ Eindhoven University of Technology,
⁴ Interuniversity Microelectronics Centre (IMEC)

Disponibil în IBN: 2 noiembrie 2023

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Rezumat

A model is developed for the nanosize double-gate silicon-on-insulator metal-oxide-semiconductor field-effect transistors. The quantum Lioville equation in the Wigner function representation was used to deal with the quantum transport problem. The probability of transmission of an electron from the source to drain was calculated. The obtained I-V characteristic show that the double-gate device is a potential structure for ultimate complementary MOS scaling.

Cuvinte-cheie
Engineering controlled terms Carrier concentration, Current voltage characteristics, Electron scattering, Quantum theory, Semiconducting silicon, Semiconductor doping, Silicon on insulator technology, surface roughness, Switching Engineering uncontrolled terms Boron acceptors, mesoscopic systems, Quantum transport, Wigner function Engineering main heading MOSFET devices