Mohamed Elattar Elattar High-Power GaAs-Based Diode Lasers with Novel Lateral Designs for Enhanced Brightness, Threshold and Efficiency

High-Power GaAs-Based Diode Lasers with Novel Lateral Designs for Enhanced Brightness, Threshold and Efficiency

von Mohamed Elattar

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Beschreibung

GaAs-based 9xx-nm broad-area diode lasers (BALs) offer the highest optical power (Popt) among diode lasers and the highest conversion efficiency (ηE) among all light sources. Therefore, they are widely used in material processing applications (e.g. metal cutting), which additionally require high beam quality (i.e. low beam parameter product BPP), typically limited in BALs along the lateral axis (BPPlat). Enhancing BAL performance is dependent on identifying the thermal and non-thermal limiting mechanisms, and implementing design changes to minimize their effects. In this work, two novel approaches based on lateral structuring are developed, aiming to overcome different limiting mechanisms acting along the lateral axis. First, the enhanced self-aligned lateral structure (eSAS) is based on integrating structured current-blocking layers outside the BAL stripe to centrally confine current and charge carriers, thereby suppressing lateral current spreading and lateral carrier accumulation. Two eSAS variants are optimized using simulation tools, then realized in multiple wafer processes, followed by characterization of mounted BALs. eSAS BALs exhibit state-of-the-art Popt and lateral brightness (Popt/BPPlat), with clear benefits over standard gain-guided BALs in terms of threshold, BPPlat and peak ηE. The second approach is chip-internal thermal path engineering, based on structured epitaxial layers replaced outside the stripe by heat-blocking materials to centrally confine heat flow. This flattens the lateral temperature profile (i.e. reduces thermal lensing) around the active zone, which is associated with enhanced brightness. Finite-element thermal simulations are used to estimate the benefits of this approach, thereby motivating its practical realization in future studies. https://cuvillier.de/de/shop/publications/9078-high-power-gaas-based-diode-lasers-with-novel-lateral-designs-for-enhanced-brightness-threshold-and-efficiency

Autor*in

Mohamed Elattar

Themen in »High-Power GaAs-Based Diode Lasers with Novel Lateral Designs for Enhanced Brightness, Threshold and Efficiency«

high-power diode laser, lateral design, lateral structuring self-aligned, eSAS, current confinement ateral carrier accumulation thermal path, heat flow, thermal lensing Hochleistungsdiodenlaser, laterales Design, laterale Strukturierung selbstausrichtend, eSAS, Stromeinschluss, Stromspreizung laterale Ladungsträgerakkumulation thermischer Pfad, Wärmefluss, thermische Linsenbildung

Stimmen zu »High-Power GaAs-Based Diode Lasers with Novel Lateral Designs for Enhanced Brightness, Threshold and Efficiency«

Details

ISBN: 9783689520342
Verlag: Cuvillier Verlag
Erscheinung: 26.07.2024

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