Elliptical Quantum Rings with Variable Heights and under Spin-Orbit Interactions
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2023Author
Mora-Ramos, Miguel E.Vinasco, Juan A
Radu, A.
Restrepo, Ricardo L.
Morales, Alvaro L.
Sahin, Mehmet
Mommadi, Omar
Sierra-Ortega, Jose
Escorcia-Salas, Gene Elizabeth
Duque, Carlos A.
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We investigate the electronic properties of a semiconductor quantum ring with an elliptical
shape and non-uniform height, allowing for distributed quantum-dot-like bulges along its perimeter.
The adiabatic approximation and the finite element method are combined to calculate the allowed
electron states in the structure under the effective mass approximation, considering the contributions
from Rashba and Dresselahaus spin–orbit interactions and the Zeeman effect in the presence of
an applied magnetic field. We discuss the features of the calculated spectra for two different ring
geometries: a symmetric one with four dot-like bulges, and an asymmetric one with three hilled
protuberances. The information about those states allows us to evaluate the linear optical absorption
response associated with interlevel transitions between the ground and lowest excited states. This
phenomenon takes place at resonant energies of only a few milielectronvolts. It is observed that
spin–orbit interactions tend to quench this response under zero-field conditions in the case of
symmetric confinement.