Energy structure and magnetization effect of semiconductor quantum rings

Yiming Li1,2, Hsiao-Mei Lu3, O. Voskoboynikov4,5, C.P. Lee6, S.M. Sze6,2
1Microelectronics and Information Systems Research Center, National Chiao Tung University, Hsinchu, Taiwan
2National Nano Device Laboratories, Hsinchu, Taiwan
3Institute of Statistics, National Tsing Hua University, Hsinchu, Taiwan
4Institute of Electronics, National Chiao-Tung University, Hsinchu, Taiwan
5Taras Shevchenko Kiev University, Kiev, Ukraine
6Institute of Electronics, National Chiao Tung University, Hsinchu, Taiwan

Tóm tắt

In this paper, we study the electronic structure of InAs/GaAs quantum rings and dots under applied magnetic fields. To compute electron-hole energy states and magnetization, a realistic three-dimensional (3D) model is applied and is solved with the nonlinear iterative method. With the developed nanostructure simulator, the variation of energy states for semiconductor quantum rings (R/sub in/=10 nm) changing into dots (R/sub in/=0 nm) are investigated comprehensively. For a fixed ring height and width, we have found the energy band gap of rings are strongly dependent on ring (and dot) shapes, ring inner radii, and applied magnetic fields. Due to the magnetic field penetration into the ring region, the variation of electron-hole energy states and magnetization of InAs/Gas rings saturate and oscillate nonperiodically when the magnetic field increases. Our observation in the oscillation of electron-hole energy states is contrary to conventional periodical argument. The results presented here provide an alternative in studying optical spectra and magneto-optical property of semiconductor quantum rings and are useful for real device applications.

Từ khóa

#Magnetization #Magnetic fields #Energy states #Quantum dots #Gallium arsenide #Iterative methods #Computational modeling #Photonic band gap #Shape #Nonlinear optics

Tài liệu tham khảo

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