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Numerical modeling of mode-locking stability and repetition rate transitions in monolithic multi-section semiconductor lasers
Author(s): Martin Birkholz; Julien Javaloyes; Oleg Nikiforov; Christoph Weber; Luke F. Lester; Stefan Breuer
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Paper Abstract

Passively mode-locked lasers are compact photonic sources delivering high-repetition rate (RR) pulse trains and picosecond short optical pulses. An excellent stability of the generated optical pulse train is crucially important towards their application in optical communications,1 optical sampling2 or as photonic clocks.3 Controlled RR transitions in a multi-section monolithic quantum-dot (QD) laser have been experimentally demonstrated by a reconfigurable absorber placement4 or a double-interval technique.5 In this contribution, we study the optical pulse train stability improvement and higher harmonic RR transitions in a monolithic semiconductor laser with interdigital absorber placement by the simulation tool FreeTWM.6 The laser under investigation is 4 mm long, corresponding to a fundamental RR of 10 GHz, and consists of 2 gain and 2 absorber sections. All gain sections are biased with the same current density and the absorber sections are equally reverse biased. The total absorber lengths contribute with 10 % to the total cavity length. One absorber is placed at the high reflective facet, the second at 1/3 of the total cavity length with one gain section in between and the second gain section following the second absorber. Numerically transitions from fundamental mode-locking (n=1; 10 GHz) to higher harmonic mode-locking (n=3; 30 GHz) occur by increasing the injected current density using numerical continuation. Associated with that transition is an improved timing stability by a factor of 333. Simulations confirm experimental results obtained by timing stability and RR transition studies.

Paper Details

Date Published: 19 June 2018
PDF: 9 pages
Proc. SPIE 10682, Semiconductor Lasers and Laser Dynamics VIII, 106821Y (19 June 2018); doi: 10.1117/12.2307353
Show Author Affiliations
Martin Birkholz, Technische Univ. Darmstadt (Germany)
Julien Javaloyes, Univ. de les Illes Balears (Spain)
Oleg Nikiforov, Technische Univ. Darmstadt (Germany)
Christoph Weber, Technische Univ. Darmstadt (Germany)
Luke F. Lester, Virginia Polytechnic Institute and State Univ. (United States)
Stefan Breuer, Technische Univ. Darmstadt (Germany)


Published in SPIE Proceedings Vol. 10682:
Semiconductor Lasers and Laser Dynamics VIII
Krassimir Panajotov; Marc Sciamanna; Rainer Michalzik, Editor(s)

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