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Simon Gross
Researcher at Macquarie University
Publications - 208
Citations - 3526
Simon Gross is an academic researcher from Macquarie University. The author has contributed to research in topics: Laser & Interferometry. The author has an hindex of 31, co-authored 190 publications receiving 2950 citations. Previous affiliations of Simon Gross include National Institutes of Natural Sciences, Japan & Centre for Ultrahigh Bandwidth Devices for Optical Systems.
Papers
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Journal ArticleDOI
Laser written circuits for quantum photonics
Thomas Meany,Thomas Meany,Markus Gräfe,René Heilmann,Armando Perez-Leija,Simon Gross,Michael J. Steel,Michael J. Withford,Alexander Szameit +8 more
TL;DR: The femtosecond laser direct-writing of waveguide circuits in glasses is among the few integrated optical platforms to have produced individually every component required for scalable quantum computation.
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Mid-infrared Q-switched Er:YAG laser for medical applications
Marek Skorczakowski,Jacek Swiderski,Wieslaw Pichola,Piotr Nyga,Andrzej Zajac,M. Maciejewska,Lukasz Galecki,Jan Kasprzak,Simon Gross,A. Heinrich,T. Bragagna +10 more
TL;DR: The 2.94 μm Er:YAG laser Q-switched mechanically by a rotating mirror was developed in this article, which can generate pulses of 30 mJ energy and duration below 290 ns, which corresponds to over 100 kW peak power.
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Low bend loss waveguides enable compact, efficient 3D photonic chips
Alexander Arriola,Simon Gross,Nemanja Jovanovic,Ned Charles,Peter G. Tuthill,Santiago M. Olaizola,Alexander Fuerbach,Michael J. Withford +7 more
TL;DR: This procedure was used to fabricate an efficient 3D, photonic device known as a "pupil-remapper" with negligible bend losses for the first time, and will also allow for complex chips, based on 10's - 100's of waveguides to be realized in a compact foot print with short fabrication times.
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Ultrafast-laser-inscribed 3D integrated photonics: challenges and emerging applications
Simon Gross,Michael J. Withford +1 more
TL;DR: In this paper, the basic techniques and technological challenges of 3D integrated photonics fabricated using ultrafast laser inscription are reviewed as well as the most recent progress in the fields of astrophotonics, optical communication, quantum photonics, emulation of quantum systems, optofluidics and sensing.
Journal ArticleDOI
Fifty percent internal slope efficiency femtosecond direct-written Tm 3+:ZBLAN waveguide laser
David G. Lancaster,Simon Gross,Heike Ebendorff-Heidepriem,K. Kuan,Tanya M. Monro,Martin Ams,Alexander Fuerbach,Michael J. Withford +7 more
TL;DR: A 790 nm pumped, Tm³⁺ doped ZBLAN glass buried waveguide laser that produces 47 mW at 1880 nm, with a 50% internal slope efficiency and an M² of 1.7 is reported, which is the most efficient laser created in a glass host via femtosecond waveguide writing.