Abstract
This computational investigation delves into the electronic and optical attributes of InGaN/GaN nanostructures subjected to both harmonic and anharmonic confinement potentials, coupled with the influence of a nonresonant intense laser field (ILF). The theoretical framework incorporates higher-order anharmonic terms, specifically quartic and sextic terms. The solutions to the Schrödinger equation have been computed employing the finite element method and the effective mass theory. Moreover, linear and third-order nonlinear optical absorption coefficients are derived via a density matrix expansion. Our analysis reveals the feasibility of manipulating electronic and optical properties by adjusting confinement potential parameters, system attributes, and laser field intensity. In addition, the ILF induces remarkable modifications, characterized by reduced resonance peak amplitudes and a blue shift in absorption coefficients. Intriguingly, regardless of potential harmonicity, the impact of incident electromagnetic intensity is notably more pronounced in the absence of the ILF. These findings hold significant promise for advancing theoretical predictions, providing valuable insights into the intricate interplay between confinement potentials, laser fields, and their effects on electronic and optical behaviors within nanostructures.
Original language | English |
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Article number | e22867 |
Number of pages | 12 |
Journal | Heliyon |
Volume | 9 |
Issue number | 12 |
DOIs | |
Publication status | Published - 2023 |
Funding
Funding Information:The authors are thankful to our collaborators from The Netherlands, Hungry, and Turkey for their appreciative contribution and precious discussions for improving the quality of this work. We gratefully acknowledge the support of the ICTP (Institute of Computational and Theoretical Physics), Trieste, Italy, for their assistance in our research. Their support was instrumental in enabling us to conduct this study and achieve our research objectives.
Keywords
- Absorption
- Harmonicity
- III-Nitrides
- ILF
- Nanostructure