# Luminescence Emission from Al0.3Ga0.7N/GaN Multi Quantum Disc core/shell   Nanowire: Numerical approach

**Authors:** E. Namvari, S. Shojaei, A. Asgari

arXiv: 1702.08201 · 2017-06-28

## TL;DR

This paper presents a numerical method to analyze room temperature luminescence in core/shell AlGaN/GaN nanowires with quantum discs, revealing how doping and disc size influence emission spectra.

## Contribution

It introduces a self-consistent numerical approach to study luminescence in core/shell nanowires considering polarization effects and dopant distribution.

## Key findings

- Doping level significantly affects luminescence intensity.
- Quantum disc size influences emission wavelength.
- Number of quantum discs alters overall luminescence properties.

## Abstract

In this work, a numerical approach to investigate the room temperature luminescence emission from core/shell nanowire is presented where GaN quantum discs (QDiscs), periodically distributed in AlxGa1-xN nanowire, is considered as core and AlxGa1-xN as shell. Thin disk shaped (Ring shaped) n-doped region has been placed at the GaN/ AlxGa1-xN (AlxGa1-xN /air) interface in AlxGa1-xN region in axial (radial) directions. To obtain energy levels and related wavefunctions, self-consistent procedure has been employed to solve Schrodinger-Poisson equations with considering the spontaneous and piezoelectric polarization. Then luminescence spectrum is studied in details to recognize the parameters influent in luminescence. The results show that the amount of doping, size of QDiscs and theirs numbers have remarkable effects on the band to band luminescence emission. Our numerical calculations gives some insights into the luminescence emission of core/shell nanowire and exhibits a useful tool to analyze findings in experiments.

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Source: https://tomesphere.com/paper/1702.08201