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Exciton states in zinc-blende GaN/AlGaN quantum dot: Effects of electric field and hydrostatic pressure

✍ Scribed by Congxin Xia; Zaiping Zeng; Z.S. Liu; S.Y. Wei

Publisher
Elsevier Science
Year
2010
Tongue
English
Weight
374 KB
Volume
405
Category
Article
ISSN
0921-4526

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✦ Synopsis

Based on the effective-mass approximation, the effects of the electric field and hydrostatic pressure on exciton states in a cylindrical zinc-blende (ZB) GaN/AlGaN quantum dot (QD) are investigated variationally. Numerical results show that the electric field leads to a remarkable reduction of the ground-state exciton binding energy and interband transition energy in the case of any hydrostatic pressures. However, the hydrostatic pressure increases the exciton binding energy and interband transition energy in the case of any electric fields. In particular, the electric field has a remarkable influence on the exciton binding energy in the QD with large dot size and small hydrostatic pressure; moreover, the hydrostatic pressure obviously affects the exciton binding energy in the QD with small dot size and weak electric field.

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✍ Sr.Gerardin Jayam; K. Navaneethakrishnan πŸ“‚ Article πŸ“… 2003 πŸ› Elsevier Science 🌐 English βš– 127 KB

The binding energies of a hydrogenic donor in a GaAs spherical quantum dot in the Ga 12x Al x As matrix are presented assuming parabolic confinement. Effects of hydrostatic pressure and electric field are discussed on the results obtained using a variational method. Effects of the spatial variation