@Article{duepublico_mods_00076933,
author = {Cherniak, Vladyslav
and Zander, Marlene
and Moehrle, Martin
and Rehbein, Wolfgang
and Balzer, Jan C.},
title = {Repetition frequency tunability and stability of BH InAs/InP QD and InGaAsP/InP QW two-section mode-locked laser diodes},
year = {2022},
month = {Sep},
day = {06},
abstract = {Ultra-high repetition rate (UHRR) mode-locked laser diodes (MLLD) have shown promising results for applications based on optical sampling such as asynchronous optical sampling (ASOPS), optical sampling by repetition-rate tuning (OSBERT), and optical ranging. Important metrics to consider are the repetition frequency (RF) and the RF linewidth. Here, we compare two monolithically integrated MLLDs. A quantum dot (QD) MLLD with an RF of approx. 50.1 GHz and a quantum well (QW) MLLD with an RF of approx. 51.4 GHz. The tunability of the RF is characterized by sweeping the lasers pump current, temperature, and saturable absorber (SA) reverse voltage. The QW MLLD has a tuning range of 31 MHz with an average RF linewidth of 53 kHz, while the QD MLLD has a smaller tuning range of 26 MHz with a higher average RF linewidth of 172 kHz.},
note = {<p>Vladyslav Cherniak, Marlene Zander, Martin Moehrle, Wolfgang Rehbein, and Jan C. Balzer, "Repetition frequency tunability and stability of BH InAs/InP QD and InGaAsP/InP QW two-section mode-locked laser diodes," <em>Opt. Express</em> <strong> 30</strong>, 34411-34419 (2022). <a href="https://doi.org/10.1364/OE.468031">https://doi.org/10.1364/OE.468031</a></p>
<p>Published: September 6, 2022</p>},
note = {Version of Record / Verlagsversion},
note = {Users may use, reuse, and build upon the article, or use the article for text or data mining, so long as such uses are for non-commercial purposes and appropriate attribution is maintained. All other rights are reserved.},
note = {<p>The publication of this article was supported by the Publication Fund of the University of Duisburg-Essen.</p>},
note = {<p><strong>Open Access Publishing Agreement</strong></p>
<p>Our "Copyright Transfer and Open Access Publishing Agreement" (OAPA) is the default option for most authors when publishing in one of our fully open access journals or when opting for open access in our hybrid journals. All articles published under our OAPA are freely accessible, while copyright is transferred to Optica Publishing Group.</p>
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<p>https://opg.optica.org/submit/review/copyright{\_}permissions.cfm?source=authornav{\&}amp;section=oa{\_}posting{\#}posting</p>
<p>23.09.2022</p>},
doi = {10.1364/OE.468031},
url = {https://duepublico2.uni-due.de/receive/duepublico_mods_00076933},
url = {https://doi.org/10.1364/OE.468031},
file = {:https://duepublico2.uni-due.de/servlets/MCRFileNodeServlet/duepublico_derivate_00076669/OptExpress_2022_30_34411.pdf:PDF},
language = {en}
}