Proceedings ArticleDOI
Mid-IR supercontinuum generation in ultra-low loss, dispersion-zero shifted tellurite glass fiber with extended coverage beyond 4.5 μm
Rajesh Bahadur Thapa,Dan Rhonehouse,Dan Nguyen,Kort Wiersma,Chris Smith,Jie Zong,Arturo Chavez-Pirson +6 more
- Vol. 8898, pp 889808
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TLDR
In this article, the authors used a tellurite-based dispersion managed nonlinear fiber and an all-fiber based short pulse (20 ps) single mode pump source to generate a high power, single mode beam with extremely wide (1μm-5μm) and simultaneous wavelength coverage.Abstract:
Mid-infrared sources are a key enabling technology for various applications such as remote chemical sensing, defense communications and countermeasures, and bio-photonic diagnostics and therapeutics. Conventional mid-IR sources include optical parametric amplifiers, quantum cascade lasers, synchrotron and free electron lasers. An all-fiber approach to generate a high power, single mode beam with extremely wide (1μm-5μm) and simultaneous wavelength coverage has significant advantages in terms of reliability (no moving parts or alignment), room temperature operation, size, weight, and power efficiency. Here, we report single mode, high power extended wavelength coverage (1μm to 5μm) supercontinuum generation using a tellurite-based dispersion managed nonlinear fiber and an all-fiber based short pulse (20 ps), single mode pump source. We have developed this mid IR supercontinuum source based on highly purified solid-core tellurite glass fibers that are waveguide engineered for dispersion-zero matching with Tm-doped pulsed fiber laser pumps. The conversion efficiency from 1922nm pump to mid IR (2μm-5μm) supercontinuum is greater than 30%, and approaching 60% for the full spectrum. We have achieved > 1.2W covering from 1μm to 5μm with 2W of pump. In particular, the wavelength region above 4μm has been difficult to cover with supercontinuum sources based on ZBLAN or chalcogenide fibers. In contrast to that, our nonlinear tellurite fibers have a wider transparency window free of unwanted absorption, and are highly suited for extending the long wavelength emission above 4μm. We achieve spectral power density at 4.1μm already exceeding 0.2mW/nm and with potential for higher by scaling of pump power.read more
Citations
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Journal ArticleDOI
Mid-infrared supercontinuum covering the 1.4–13.3 μm molecular fingerprint region using ultra-high NA chalcogenide step-index fibre
Christian Rosenberg Petersen,Uffe Møller,Irnis Kubat,Binbin Zhou,Sune Dupont,Jacob Ramsay,Trevor M. Benson,Slawomir Sujecki,Nabil Abdel-Moneim,Zhuoqi Tang,David Furniss,Angela B. Seddon,Ole Bang +12 more
TL;DR: In this article, a record-breaking spectral coverage of 1.4-13.3 µm was achieved by launching intense ultra-short pulses into short pieces of ultra-high numerical aperture step-index chalcogenide glass optical fiber consisting of a GaAsSe cladding and an As2Se3 core.
Journal ArticleDOI
Multi-milliwatt mid-infrared supercontinuum generation in a suspended core chalcogenide fiber
Uffe Møller,Yi Yu,Irnis Kubat,Christian Rosenberg Petersen,Xin Gai,Laurent Brilland,David Mechin,Celine Caillaud,Johann Troles,Barry Luther-Davies,Ole Bang +10 more
TL;DR: A low-loss suspended core As(38)Se(62) fiber with core diameter of 4.5 μm and a zero-dispersion wavelength of 3.5μm was used for mid-infrared supercontinuum generation and was in good correspondence with the calculated dispersion.
Journal ArticleDOI
Thulium pumped mid-infrared 0.9-9μm supercontinuum generation in concatenated fluoride and chalcogenide glass fibers.
Irnis Kubat,Christian Rosenberg Petersen,Uffe Møller,Angela B. Seddon,Trevor M. Benson,Laurent Brilland,David Mechin,Peter M. Moselund,Ole Bang +8 more
TL;DR: A novel approach for generating Mid-InfraRed SuperContinuum (MIR SC) by using concatenated fluoride and chalcogenide glass fibers pumped with a standard pulsed Thulium laser is theoretically demonstrated.
Journal ArticleDOI
High power mid-infrared supercontinuum generation in a single-mode ZBLAN fiber with up to 21.8 W average output power
TL;DR: This report reports high power mid-infrared (mid-IR) supercontinuum (SC) generation in a single-mode ZBLAN fiber with up to 21.8 W average output power, which is, to the best of the knowledge, the highest average power mid theIR SC generation from a ZBLan fiber to date.
Journal ArticleDOI
Mid-infrared supercontinuum generation to 12.5μm in large NA chalcogenide step-index fibres pumped at 4.5μm
Irnis Kubat,Christian Agger,Uffe Møller,Angela B. Seddon,Zhuoqi Tang,Slawomir Sujecki,Trevor M. Benson,David Furniss,Samir Lamrini,Karsten Scholle,Peter Fuhrberg,Bruce Napier,Mark Farries,Jon Ward,Peter M. Moselund,Ole Bang +15 more
TL;DR: Numerical modeling of mid-infrared (MIR) supercontinuum generation (SCG) in dispersion-optimized chalcogenide (CHALC) step-index fibres (SIFs) with exceptionally high numerical aperture (NA) around one, pumped with mode-locked praseodymium-doped (Pr(3+)) chalCogenide fibre lasers.
References
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Journal ArticleDOI
Mid-infrared quantum cascade lasers
TL;DR: The design flexibility of quantum cascade lasers has enabled their expansion into mid-infrared wavelengths of 3-25 µm as discussed by the authors. But their performance has not yet reached the state-of-the-art in terms of power and power efficiency.
Journal ArticleDOI
Over 4000 nm bandwidth of mid-IR supercontinuum generation in sub-centimeter segments of highly nonlinear tellurite PCFs.
Peter Domachuk,N. A. Wolchover,Mark Cronin-Golomb,Aimin Wang,A.K. George,Cristiano M. B. Cordeiro,Jonathan Knight,Fiorenzo G. Omenetto +7 more
TL;DR: Broad bandwidth, mid-IR supercontinuum generation using a sub-cm (8 mm) length of highly nonlinear tellurite microstructured photonic crystal fiber, comparable or in excess of previously reported spectra for other nonlinear glass fiber formulations despite the significantly shorter fiber length is reported.
Journal ArticleDOI
Low-threshold supercontinuum generation in highly nonlinear chalcogenide nanowires
Dong-Il Yeom,Eric Magi,Michael R. E. Lamont,Michael A. F. Roelens,Libin Fu,Benjamin J. Eggleton +5 more
TL;DR: High nonlinearity in a highly nonlinear arsenic selenide chalcogenide nanowire with tailored dispersion enables low-threshold soliton fission leading to large spectral broadening at a dramatically reduced peak power of several watts, corresponding to picojoule energy.
Journal ArticleDOI
Tellurite and Fluorotellurite Glasses for Fiberoptic Raman Amplifiers: Glass Characterization, Optical Properties, Raman Gain, Preliminary Fiberization, and Fiber Characterization*
M.D. O’Donnell,Kathleen Richardson,R. Stolen,Angela B. Seddon,David Furniss,V.K. Tikhomirov,Clara Rivero,Mark Ramme,Robert Stegeman,George I. Stegeman,Michel Couzi,Thierry Cardinal +11 more
TL;DR: In this article, the physical properties and spontaneous Raman scattering spectra of nine oxide tellurite and fluorotellurite glasses from three glass systems were reported and the calculated gain showed good fits to the Raman gain measurements made using a calibrated nonlinear optics apparatus.
Journal ArticleDOI
Power scalable mid-infrared supercontinuum generation in ZBLAN fluoride fibers with up to 1.3 watts time-averaged power
Chenan Xia,Malay Kumar,Ming Yuan Cheng,Ravi S. Hegde,Mohammed N. Islam,A. Galvanauskas,Herbert G. Winful,Fred L. Terry,Michael J. Freeman,Marcel Poulain,Gwenael Maze +10 more
TL;DR: Simulation results obtained by solving the generalized nonlinear Schrödinger equation show that the long wavelength edge of the SC is primarily determined by the peak pump power in the ZBLAN fiber.