ELECTRON-TRANSPORT THROUGH GAALAS BARRIERS IN GAAS


Autoria(s): FENG SL; KRYNICKI J; ZAZOUI M; BOURGOIN JC; BOIS P; ROSENCHER E
Data(s)

1993

Resumo

We have analyzed electronic transport through a single, 200-angstrom-thick, Ga0.74Al0.36As barrier embedded in GaAs. At low temperatures and high electric field, the Fowler-Nordheim regime is observed, indicating that the barrier acts as insulating layers. At higher temperatures the thermionic regime provides an apparent barrier height, decreasing with the field, which is equal to the expected band offset when extrapolated to zero field. However, for some samples, the current is dominated by the presence of electron traps located in the barrier. A careful analysis of the temperature and field behavior of this current allows to deduce that the mechanism involved is field-enhanced emission from electron traps. The defects responsible are tentatively identified as DX centers, resulting from the contamination of the barrier by donor impurities.

Identificador

http://ir.semi.ac.cn/handle/172111/14079

http://www.irgrid.ac.cn/handle/1471x/101074

Idioma(s)

英语

Fonte

FENG SL; KRYNICKI J; ZAZOUI M; BOURGOIN JC; BOIS P; ROSENCHER E.ELECTRON-TRANSPORT THROUGH GAALAS BARRIERS IN GAAS,JOURNAL OF APPLIED PHYSICS,1993,74(1):341-345

Palavras-Chave #半导体物理 #RESONANT TUNNELING DIODES #CURRENT-VOLTAGE CHARACTERISTICS #QUANTUM-WELLS #ALGAAS GAAS #SUPERLATTICES #LAYERS
Tipo

期刊论文