Hole mobility of cylindrical GaSb nanowires

García Ruiz, Francisco Javier; González Marín, Enrique; Martínez Blanque, Celso Jesús; Tienda Luna, Isabel María; González-Medina, Jose María; Toral López, Alejandro; Donetti, Luca; Godoy Medina, Andrés

FGRuiz_EUROSOI_2.pdf (727.9Kb)

Identificadores

URI: http://hdl.handle.net/10481/58490

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Materia

III-antimonides

GaSb

Hole mobility

K·p simulation

Charge screening

Phonons

Surface roughness

III-V materials

Fecha

2018-03-20

Referencia bibliográfica

F.G. Ruiz, Hole mobility of cylindrical GaSb nanowires, EUROSOI-ULIS Granada. 2018

Patrocinador

The authors acknowledge the support by the Spanish Government under the Project TEC2014-59730-R.

Resumen

The hole mobility of GaSb field-effect transistor nanowires is analyzed as a function of the device orientation and gate bias. To this purpose, a self-consistent Poisson-Schrödinger solver with an 88 k·p Hamiltonian is employed to study the electrostatics, and the hole mobility is calculated under the momentum relaxation time solution of the Boltzmann transport equation including the main high-field scattering mechanisms.

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