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Longitudinal wave function control in single quantum dots with an applied magnetic field.


ABSTRACT: Controlling single-particle wave functions in single semiconductor quantum dots is in demand to implement solid-state quantum information processing and spintronics. Normally, particle wave functions can be tuned transversely by an perpendicular magnetic field. We report a longitudinal wave function control in single quantum dots with a magnetic field. For a pure InAs quantum dot with a shape of pyramid or truncated pyramid, the hole wave function always occupies the base because of the less confinement at base, which induces a permanent dipole oriented from base to apex. With applying magnetic field along the base-apex direction, the hole wave function shrinks in the base plane. Because of the linear changing of the confinement for hole wave function from base to apex, the center of effective mass moves up during shrinking process. Due to the uniform confine potential for electrons, the center of effective mass of electrons does not move much, which results in a permanent dipole moment change and an inverted electron-hole alignment along the magnetic field direction. Manipulating the wave function longitudinally not only provides an alternative way to control the charge distribution with magnetic field but also a new method to tune electron-hole interaction in single quantum dots.

SUBMITTER: Cao S 

PROVIDER: S-EPMC4306960 | biostudies-literature | 2015

REPOSITORIES: biostudies-literature

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Longitudinal wave function control in single quantum dots with an applied magnetic field.

Cao Shuo S   Tang Jing J   Gao Yunan Y   Sun Yue Y   Qiu Kangsheng K   Zhao Yanhui Y   He Min M   Shi Jin-An JA   Gu Lin L   Williams David A DA   Sheng Weidong W   Jin Kuijuan K   Xu Xiulai X  

Scientific reports 20150127


Controlling single-particle wave functions in single semiconductor quantum dots is in demand to implement solid-state quantum information processing and spintronics. Normally, particle wave functions can be tuned transversely by an perpendicular magnetic field. We report a longitudinal wave function control in single quantum dots with a magnetic field. For a pure InAs quantum dot with a shape of pyramid or truncated pyramid, the hole wave function always occupies the base because of the less con  ...[more]

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