Rubén E. Acosta scite author profile

The exciton binding energy of an asymmetrical GaAs-Ga1−xAlxAs cylindrical quantum dot is studied with the use of the effective mass approximation and a variational calculation procedure. The influence on this quantity of the application of a direct-current electric field along the growth direction of the cylinder, together with that of an intense laser field, is particularly considered. The resulting states are used to calculate the exciton-related nonlinear optical absorption and optical rectification, whose corresponding resonant peaks are reported as functions of the external probes, the quantum dot dimensions, and the aluminum molar fraction in the potential barrier regions.

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Optical absorption and refractive index changes in a semiconductor quantum ring: Electric field and donor impurity effects

Acosta

Morales

Duque

2015

Phys. Status Solidi B

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The electron states in a two‐dimensional quantum dot ring are calculated in the presence of a donor impurity atom under the effective mass and parabolic band approximations. The effect of an externally applied electric field is also taken into account. The wavefunctions are obtained via the diagonalization of the problem Hamiltonian using a 2D expansion. The impurity‐related optical response is analyzed via the optical absorption and relative refractive index coefficients.

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Rubén E. Acosta

Optical coefficients in a semiconductor quantum ring: Electric field and donor impurity effects

Electric field effects on excitons in cylindrical quantum dots with asymmetric axial potential. Influence on the nonlinear optical properties

Exciton-related nonlinear optical properties in cylindrical quantum dots with asymmetric axial potential: combined effects of hydrostatic pressure, intense laser field, and applied electric field

Optical absorption and refractive index changes in a semiconductor quantum ring: Electric field and donor impurity effects

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