Optical absorption coefficient in n-type double δ-doped layers GaAs quantum wells

Noverola-Gamas, Humberto; Gaggero‐Sager, L. M.; Oubram, O.

doi:10.1142/s0217979219502151

Cited by 6 publications

(10 citation statements)

References 32 publications

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“…In a previous work, we calculated the electronic structure of the n-type double-δ -doped model, in the TF approximation. [31] Our potential profile was not constant with interlayer distance, besides this potential is continuous in the center. Using the same physical considerations, here a model for the p-type double-δ -doped (DDD) quantum well system is proposed.…”

Section: Introductionmentioning

confidence: 69%

“…where E F is the Fermi energy of the system, e is the electron charge, h represents the Plank constant, ε r the dielectric constant, m * hh,hl is the effective mass of the heavy holes and light holes respectively, ρ 2D is the two-dimensional density of impurities, and d represents the interlayer distance. In the previous work, [31] we proposed, as a solution of the double deltadopings, the following expression in effective units for z ≤ 0:…”

Section: Methodsmentioning

confidence: 99%

“…[35] In Ref. [31] we determined the values of the parameters β and z 1 by applying two physical conditions. In addition, a third parameter γ was introduced, with the condition z 1 = γ(z 0 + αd/2).…”

Section: Methodsmentioning

confidence: 99%

“…In Ref. [31] there is a detailed analysis of the parameters involved, where M fi represents matrix elements of the dipole moment of the final (f) and initial (i) associated states. In this case m * represents the mass of heavy holes, τ in is the intersubband relaxation time.…”

Section: Methodsmentioning

confidence: 99%

“…[7,30] The changes in the interlayer distance can significantly affect the electronic structure mainly due to the changes in energy band gap and the dipolar moment. [31] Some previous models have studied the physical properties of double-δ -doped systems. Those approaches assume that the potential profile bottom is constant.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Interlayer distance effects on absorption coefficient and refraction index change in p-type double-δ-doped GaAs quantum wells*

Noverola-Gamas¹,

Gaggero‐Sager²,

Oubram³

2019

Chinese Phys. B

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In the framework of the Thomas–Fermi (TF) approach, a model for the p-type double-δ-doped (DDD) system in GaAs is presented. This model, unlike other works in the literature, takes into account that the Poisson equation associated with the system is nonlinear. The electronic structure is calculated for heavy and light holes. The changes in the electronic structure result of the distance d between the doped layers are studied. In particular, the relative absorption coefficient as well as the relative refractive index change is calculated as a function of the incident photon energy for heavy holes. The effect of the interlayer distance exhibits, in the absorption coefficient, a red shift of the peak position and a decrease in amplitude when the distance increases. In addition, the relative refractive index change node has a red shift as well as the interlayer distance increases. The calculations show that the effect of the separation between layers has a greater influence on the linear terms. These results are very important for theoretical calculations and engineering of optical and electronic devices based in δ-doped GaAs.

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Section: Introductionmentioning

confidence: 69%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Interlayer distance effects on absorption coefficient and refraction index change in p-type double-δ-doped GaAs quantum wells*

Noverola-Gamas¹,

Gaggero‐Sager²,

Oubram³

2019

Chinese Phys. B

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Donor impurity atom effect on the inter-subband absorption coefficient for symmetric double n-type δ-doped GaAs quantum well

Rodríguez-Magdaleno

Turkoglu²,

Ungan

et al. 2021

Superlattices and Microstructures

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Optical properties of n-type asymmetric triple δ-doped quantum well under external fields

Ungan

Bahar

2020

Phys. Scr.

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We present a theoretical investigation about the the influence of external electric, magnetic and non-resonant intense laser fields on intersubband-related second harmonics generation (SHG) and the nonlinear optical rectification (NOR) coefficients in n-type asymmetric triple δ-doped quantum wells (QWs). A particular design of asymmetric triple δ-doped QW with Lw = 200 Å width and, respectively, in the left side, central and right side, and doping concentrations is taken into account. For QWs under the combined effect of the external electric, magnetic and laser fields, the time-dependent wave equation is modified by using Kramers-Henneberger transformation and the dipole approximation. The subband energy spectra and the electronic wave functions are obtained by solving numerically the wave equation. The originality of this work can be presented as; (i) The results explain NOR and SHG characteristics of triple QW depending on external field effects in detail. The effects of the electric, magnetic and laser field on transition energies and NOR, SHG characteristics are presented detail. (ii) In addition to, the alternativeness to each other of the external fields is discussed by probing the features of SHG and NOR under the strong and weak regimes of external fields. (iii) These nonlinear optical responses to the external fields are compared, researching the optimum cases for these optical specifications. (iv) The control of SHG through the external fields in triple δ-doped QWs reveals to be easier and more precise.

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Optical absorption coefficient in n-type double δ-doped layers GaAs quantum wells

Cited by 6 publications

References 32 publications

Interlayer distance effects on absorption coefficient and refraction index change in p-type double-δ-doped GaAs quantum wells*

Interlayer distance effects on absorption coefficient and refraction index change in p-type double-δ-doped GaAs quantum wells*

Donor impurity atom effect on the inter-subband absorption coefficient for symmetric double n-type δ-doped GaAs quantum well

Optical properties of n-type asymmetric triple δ-doped quantum well under external fields

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