S
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
Efficient 2.9 μm fluorozirconate glass waveguide chip laser
David G. Lancaster,Simon Gross,Heike Ebendorff-Heidepriem,Michael J. Withford,Tanya M. Monro,Stuart D. Jackson +5 more
TL;DR: A large mode-area holmium-doped ZBLAN waveguide laser operating at 2.9 μm, which was pumped by a 1150 nm diode laser, which produced up to 27 mW of output power at an internal slope efficiency of approximately 20%.
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Design of optically path-length-matched, three-dimensional photonic circuits comprising uniquely routed waveguides
Ned Charles,Nemanja Jovanovic,Simon Gross,Paul Stewart,Barnaby Norris,John O'Byrne,Jon Lawrence,Michael J. Withford,Peter G. Tuthill +8 more
TL;DR: It is demonstrated via interferometric methods that the fabricated circuits were indeed optically path-length matched to within 45 μm, which is within the coherence length required for many applications.
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Monolithic mode-selective few-mode multicore fiber multiplexers
TL;DR: These compact multiplexers allow for the simultaneous multiplexing of the LP01, LP11a and LP11b modes of all cores in a 3-mode, 4-core fiber with excellent mode extinction ratios and low insertion losses.
Journal ArticleDOI
1.2 Pb/s Throughput Transmission Using a 160 $\mu$ m Cladding, 4-Core, 3-Mode Fiber
Ruben S. Luis,Georg Rademacher,Benjamin J. Puttnam,Tobias A. Eriksson,Hideaki Furukawa,Andrew Ross-Adams,Simon Gross,Michael J. Withford,Nicolas Riesen,Yusuke Sasaki,Kunimasa Saitoh,Kazuhiko Aikawa,Yoshinari Awaji,Naoya Wada +13 more
TL;DR: In this article, a 3.37 km, 4-core, 3-mode few-mode multi-core fiber with spatial multiplexing and demultiplexing performed with especially designed mode-selective couplers.
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On the use of the type I and II scheme for classifying ultrafast laser direct-write photonics
TL;DR: A return to the original basis of the classification based on the characteristics of the material modification rather than the physical geometry of the waveguide is proposed.