Quantum electronic trap-to-band transitions in chalcogenides induced by electron-electron interaction

Author

Buscemi, F. ; Piccinini, E. ; Giovanardi, F. ; Rudan, M. ; Brunetti, R. ; Jacoboni, C.

Author_Institution

Dept. of Electron., Comput. Sci. & Syst., Univ. of Bologna, Bologna, Italy

fYear

2011

fDate

8-10 Sept. 2011

Firstpage

67

Lastpage

70

Abstract

Charge transport in amorphous-chalcogenide materials used for manufacturing memory devices is determined by two mechanisms: hopping of trapped electrons and motion of band electrons. Electron-electron interaction is investigated here as one of the mechanisms mainly responsible for the trap-to-band transitions. The problem is tackled using a fully quantum-mechanical approach by numerically solving the two-particle, time-dependent Schrödinger equation. The results show that the detrapping probability increases with the current density, this supporting the interpretation by which successive electron-electron scattering events may play a major role in the determining the snap-back of the I(V) characteristic in this kind of materials.

Keywords

Schrodinger equation; amorphous state; current density; exchange interactions (electron); quantum theory; I(V) characteristic; amorphous-chalcogenide materials; band electron motion; current density; electron-electron interaction; manufacturing memory devices; quantum electronic trap-to-band transitions; quantum-mechanical approach; time-dependent Schrodinger equation; trapped electron hopping; two-particle equation; Current density; Electron traps; Equations; Materials; Resistance; Scattering;

fLanguage

English

Publisher

ieee

Conference_Titel

Simulation of Semiconductor Processes and Devices (SISPAD), 2011 International Conference on

Conference_Location

Osaka

ISSN

1946-1569

Print_ISBN

978-1-61284-419-0

Type

conf

DOI

10.1109/SISPAD.2011.6035051

Filename

6035051