Effects of surface curvature and electric field on electronic and optical properties of an off-center hydrogenic donor impurity in 2D nanostructures

In this study, we have explored how the curvature of a surface affects the electronic and optical properties of hydrogenic donor impurity within both flat and curved two-dimensional nanostructure, subject to an external electric field. In order to ascertain the energy states and their associated wav...

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Published inEuropean physical journal plus Vol. 139; no. 5; p. 381
Main Authors Chouef, S., Mommadi, O., Boussetta, R., Hbibi, M., El Moussaouy, A., Şahin, M., Falyouni, F., Duque, C. A.
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 04.05.2024
Springer Nature B.V
Subjects
Absorptivity
Applied and Technical Physics
Approximation
Atomic
Complex Systems
Condensed Matter Physics
Curvature
Electric fields
Electrons
Energy
Energy value
Finite difference method
Hydrogenation
Impurities
Influence
Mathematical analysis
Mathematical and Computational Physics
Molecular
Nanostructure
Optical and Plasma Physics
Optical properties
Physics
Physics and Astronomy
Quantum dots
Regular Article
Schrodinger equation
Semiconductor research
Theoretical
Wave functions
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Abstract In this study, we have explored how the curvature of a surface affects the electronic and optical properties of hydrogenic donor impurity within both flat and curved two-dimensional nanostructure, subject to an external electric field. In order to ascertain the energy states and their associated wave functions, we have numerically solved the Schrödinger equation using the effective mass approximation and finite difference method. Utilizing the resulting energy values and wave functions, we have computed binding energy, transition energy, curvature effect, optical absorption coefficient, and oscillator strength of an off-center hydrogenic impurity in a 2D quantum dot nanostructure. Furthermore, we have conducted a thorough analysis of how an electric field and geometrical confinement influence the spectrum of a confined electron-impurity. Our findings reveal that variations in radius and angle of curvature, applied electric field, and impurity position exert profound impacts on the electronic and optical properties of 2D-nanostructures.
AbstractList In this study, we have explored how the curvature of a surface affects the electronic and optical properties of hydrogenic donor impurity within both flat and curved two-dimensional nanostructure, subject to an external electric field. In order to ascertain the energy states and their associated wave functions, we have numerically solved the Schrödinger equation using the effective mass approximation and finite difference method. Utilizing the resulting energy values and wave functions, we have computed binding energy, transition energy, curvature effect, optical absorption coefficient, and oscillator strength of an off-center hydrogenic impurity in a 2D quantum dot nanostructure. Furthermore, we have conducted a thorough analysis of how an electric field and geometrical confinement influence the spectrum of a confined electron-impurity. Our findings reveal that variations in radius and angle of curvature, applied electric field, and impurity position exert profound impacts on the electronic and optical properties of 2D-nanostructures.
ArticleNumber 381
Author Boussetta, R.
Mommadi, O.
Şahin, M.
Chouef, S.
El Moussaouy, A.
Hbibi, M.
Falyouni, F.
Duque, C. A.
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  surname: Mommadi
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  organization: Department of Nanotechnology Engineering, Abdullah Gul University
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– sequence: 8
  givenname: C. A.
  surname: Duque
  fullname: Duque, C. A.
  organization: Grupo de Materia Condensada-UdeA, Instituto de Física, Facultad de Ciencias Exactas y Naturales, Universidad de Antioquia UdeA
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Snippet In this study, we have explored how the curvature of a surface affects the electronic and optical properties of hydrogenic donor impurity within both flat and...
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SubjectTerms Absorptivity
Applied and Technical Physics
Approximation
Atomic
Complex Systems
Condensed Matter Physics
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Electrons
Energy
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Mathematical and Computational Physics
Molecular
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Optical and Plasma Physics
Optical properties
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Title Effects of surface curvature and electric field on electronic and optical properties of an off-center hydrogenic donor impurity in 2D nanostructures
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