Electronic states and magnetotransport in quantum waveguides with nonuniform magnetic fields


Autoria(s): Gu BY; Sheng WD; Wang XH; Wang J
Data(s)

1997

Resumo

The electronic states and magnetotransport properties of quantum waveguides (QW's) in the presence of nonuniform magnetic fields perpendicular to the QW plane are investigated theoretically. It is found that the magnetoconductance of those structures as a function of Fermi energy exhibits stepwise variation or square-wave-like oscillations, depending on the specific distributions (both in magnitude and direction) of nonuniform magnetic fields in QW's. We have investigated the dual magnetic strip structures and three magnetic strip structures. The character of the magnetotransport is closely related to the effective magnetic potential and the energy-dispersion spectrum of electron in the structures. It is found that dispersion relations seem to be combined by different sets of dispersion curves that belong to different individual magnetic subwaveguides. The magnetic effective potential leads to the coupling of states and the substantial distortion of the original dispersion curves at the interfaces in which the abrupt change of magnetic fields appears. Magnetic scattering states are created. Only in some three magnetic strip structures, these scattering states produce the dispersion relations with oscillation structures superimposed on the bulk Landau levels. It is the oscillatory behavior in dispersions that leads to the occurrence of square-wave-like modulations in conductance.

Identificador

http://ir.semi.ac.cn/handle/172111/15111

http://www.irgrid.ac.cn/handle/1471x/101450

Idioma(s)

英语

Fonte

Gu BY; Sheng WD; Wang XH; Wang J .Electronic states and magnetotransport in quantum waveguides with nonuniform magnetic fields ,PHYSICAL REVIEW B,1997,56(20):13434-13441

Palavras-Chave #半导体物理 #LATERAL SURFACE SUPERLATTICES #WAVE-GUIDE #WIRE SYSTEM #TRANSPORT #TRANSMISSION #LOCALIZATION #CONDUCTANCE #DEVICE #MOTION #WELLS
Tipo

期刊论文