Hole mobility of cylindrical GaSb nanowires
Identificadores
URI: http://hdl.handle.net/10481/58490Metadatos
Mostrar el registro completo del ítemAutor
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, AndrésMateria
III-antimonides GaSb Hole mobility K·p simulation Charge screening Phonons Surface roughness III-V materials
Fecha
2018-03-20Referencia 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 88 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.