MICROSCOPIC CHARACTERIZATION OF HOT-ELECTRON SPREADING AND TRAPPING IN SIO2-FILMS USING BALLISTIC-ELECTRON-EMISSION MICROSCOPY

Authors
KACZER B IM HJ PELZ JP WALLACE RM
Citation
B. Kaczer et al., MICROSCOPIC CHARACTERIZATION OF HOT-ELECTRON SPREADING AND TRAPPING IN SIO2-FILMS USING BALLISTIC-ELECTRON-EMISSION MICROSCOPY, Applied physics letters, 73(13), 1998, pp. 1871-1873
Citations number
15
Categorie Soggetti
Physics, Applied
Journal title
Applied physics lettersACNP
ISSN journal
00036951
Volume
73
Issue
13
Year of publication
1998
Pages
1871 - 1873
Database
ISI
SICI code
0003-6951(1998)73:13<1871:MCOHSA>2.0.ZU;2-P
Abstract
Ballistic electron emission microscopy was used to study three-dimensi onal spreading and trapping of charge in buried, 10 nm thick SiO2 film s following hot-electron injection at one location. The trapped charge was found to be distributed approximately uniformly across the thickn ess of the oxide, and spread laterally similar to 50 nm, much more tha n the oxide film thickness. This large spreading can be explained by a combination of strong hot electron scattering and strong suppression in trapping efficiency at higher injected electron dose. (C) 1998 Amer ican Institute of Physics. [S0003-6951(98)03639-0].