I. Guizani scite author profile

We have theoretically investigated the 1.55 μm emission of p–i–n GaNAsBi-based quantum wells (QWs) using a self-consistent calculation combined with (16×16) BAC model. Their performances are evaluated in terms of spontaneous emission rate Rsp and radiative current density Jrad. We have found that Jrad increases as function of the injected carrier density as well as the doping density. The quantum confined Stark effect on radiative current density in ideal lasers is also discussed. The radiative current density versus well width for simple and double p-GaAs/i-GaN·58yAs1-1·58yBiy/n-GaAs quantum well structures is also examined. We have obtained that Jrad increases with increase average thickness of GaNAsBi active region. The optimization of well parameters can be used as a basis for GaNAsBi-based lasers intended for optical fiber telecommunication wavelength.

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Effects of p-type doping and electric field on electronic band structure and optical properties of GaNAsBi/GaAs quantum well detectors operating at 1.55 μm

Guizani

Bilel

Habchi

et al. 2017

Thin Solid Films

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I. Guizani

A Systematic Methodology for the Analysis of Multicomponent Photoreflectance Spectra Applied to GaAsBi/GaAs Structure

Investigation of the doping and Stark effects on the band structure and optical absorption of 1.55 μm GaNAsBi/GaAs MQWs

Spontaneous Emission Rate and Radiative Current Density in p-GaAs/i-GaNAsBi/n-GaAs Quantum Well Lasers

Effects of p-type doping and electric field on electronic band structure and optical properties of GaNAsBi/GaAs quantum well detectors operating at 1.55 μm

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