The Energy Spectra of Electric Induced Mathieu Quantum Dot with Hydrogenic Impurity Implanted in Quantum Plasma
Abstract
Keywords
Quantum dot, quantum plasma, Mathieu potential, electric field, electronic properties
References
- [1] Liculescu E. C., Bejan D., Nonlinear optical properties of GaAs pyramidal quantum dots: Effects of elliptically polarized radiation, impurity, and magnetic applied fields, Physica E: Low-dimensional Systems and Nanostructures, 74 (2015) 51-58.
- [2] Harrison P., Quantum Wells, Wires, Dots (2. Edition). England:Wiley, (2005).
- [3] Jacak L., Semiconductor quantum dots-towards a new generation of semiconductor devices, European Physical Journal, 21 (2000) 487-497.
- [4] Xie W. F., Two interacting electrons in a Gaussian confining potential quantum dot, Solid State Communications, 127 (2003) 401-405.
- [5] Owen J., Brus L. Chemical synthesis and luminescence applications of colloidal semiconductor quantum dots, Journal of American Chemical Society, 139 (2017) 10939-10943.
- [6] Davies J. H., The Physics of Low-Dimensional Semiconductors: An Introduction (5.Edition). USA:Cambridge, (1999).
- [7] Başer P, Bahar M. K., Evaluation of the external electric-and magnetic field-driven Mathieu quantum dot’s optical observables, Physica B:Condense Matter, 639 (2022) 413991-413999.
- [8] Bahar M. K, Başer P., Nonlinear optical characteristics of thermodynamic effects-and electric field-triggered Mathieu quantum dot, Micro and Nanostructures, 170 (2022) 207371-207382.
- [9] Bahar M. K, Başer P., Tuning of nonlinear optical characteristics of Mathieu quantum dot by laser and electric field, The European Physical Journal Plus, 137 (2022) 1138-1148.
- [10] Kortshagen U., Nonthermal plasma synthesis of semiconductor nanocrystals, Journal of Physics D: Applied Physics, 42 (2009) 113001-113023.