Title :
One-shot current conserving approach of phonon scattering treatment in nano-transistors
Author :
Bescond, M. ; Dib, E. ; Li, Cong ; Mera, H. ; Cavassilas, N. ; Michelini, Fabienne ; Lannoo, M.
Author_Institution :
IM2NP, UMR, Marseille, France
Abstract :
Phonon scattering can drastically influence transport properties of nanodevices. From a simulation point of view, the non-equilibrium Green´s function formalism provides a natural way to include inelastic scattering in quantum transport codes, by means of self-energies. Phonon scattering is usually treated with the so-called self-consistent Born approximation which involves the evaluation of the SCBA self-energy together with the electrostatic potential; a computationally expensive self-consistent procedure. In this work we present an alternative one-shot current conserving method to treat phonon scattering and apply it to the modeling of silicon n-type nano-wire and p-type double-gate MOSFETs.
Keywords :
MOSFET; approximation theory; light scattering; nanoelectronics; phonons; transistors; inelastic scattering; nanodevices; nanotransistors; nonequilibrium Green function formalism; one-shot current conserving approach; phonon scattering treatment; quantum transport codes; self-energies; so-called self-consistent Born approximation; Acoustics; Approximation methods; Green´s function methods; Optical scattering; Phonons; Transistors;
Conference_Titel :
Simulation of Semiconductor Processes and Devices (SISPAD), 2013 International Conference on
Conference_Location :
Glasgow
Print_ISBN :
978-1-4673-5733-3
DOI :
10.1109/SISPAD.2013.6650662
