Dr. Mohammed Saad Profile

Dr. Mohammed Saad

Senior Glass Scientist at Thorlabs Inc

SPIE Involvement:

Author

Area of Expertise:

infrared material , fiber drwaing , fluoride fiber , infrared fiber , fluoride glass

Proceedings Article | 9 March 2016 Paper

Mid-infrared supercontinuum generation up to 4.6 µm using step-index indium fluoride fiber pumped by a femtosecond fiber laser near 2 µm

Reza Salem, Zack Jiang, Dongfeng Liu, Robert Pafchek, Paul Foy, Mohammed Saad, Doug Jenkins, Alex Cable, Peter Fendel

Proceedings Volume 9728, 97280L (2016) https://doi.org/10.1117/12.2213140

KEYWORDS: Mid-IR, Femtosecond fiber lasers, Fiber lasers, Femtosecond phenomena, Numerical modeling, Supercontinuum generation, Mode locking, Modeling, Spectroscopy, Specialty optical fibers, Dispersion, Optical fibers, Raman spectroscopy

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Proceedings Article | 26 February 2013 Paper

Multi-wavelength S-band Tm:ZBLAN fiber lasers

B. Frison, A. Sarmani, L. Chen, X. Gu, M. Saad

Proceedings Volume 8601, 86011S (2013) https://doi.org/10.1117/12.2004655

KEYWORDS: Fiber lasers, Fiber Bragg gratings, ZBLAN, S band, Upconversion, Thulium, Wavelength division multiplexing, Silica, Fiber amplifiers, Spectrum analysis

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Tm³⁺-doped fluoride (ZBLAN) fibers offer amplification and lasing in a wide variety of wavelength ranges, including 810 nm, 1480 nm, 1900 nm, and 2300 nm.¹ Amplification and lasing around 1480 nm through the ³H₄→³F₄ transition is of interest for extending the capacity of WDM transmission systems, as well as developing sources for pumping erbium-doped fiber and fiber Raman amplifiers. The ³H₄→³F₄ transition, however, poses a challenge due to its self terminating nature. As such, the ³F₄ level can be depleted either by colasing at 1900 nm² or by using upconversion pumping at 1064 nm. High-power 1480 nm Tm³⁺:ZBLAN fiber lasers with upconversion pumping at 1064 nm have been demonstrated.^3-6 Recent research has focused on improving further the power conversion efficiency as well as the development of monolithic fiber lasers, e.g., by incorporating fiber Bragg gratings (FBGs) directly within the Tm³⁺: ZBLAN fiber gain medium. Dual-wavelength and multi-wavelength sources can have many applications in instrumentation (e.g., component testing), LIDAR systems, and fiber optics sensing. There have been several reports of dual-wavelength Tm³⁺-doped fiber lasers. For example, Androz et al. demonstrated operation at 785 nm and 810 nm, corresponding to the ¹G₄→³H₅ and ³H₄→³H₆ transitions, respectively, with a Tm³⁺:ZBLAN fiber gain medium.⁷ Wang et al. obtained dual-wavelength lasing around 2 μm with a tunable wavelength spacing from 1 nm – 40 nm in a Tm³⁺:silica fiber laser.⁸ We realized oscillation at 805 nm and 810 nm through the ³H₄→³H₆ transition in a Tm³⁺:ZBLAN fiber laser; we also reported wavelength switching capability as well as bistable operation in both single cavity and cascaded cavity configurations.⁹ In this paper, we extend our work further and report a dual-wavelength Tm³⁺:ZBLAN fiber laser operating in the S-band. Wavelength spacings of 11 nm and as narrow as 0.6 nm are achieved in a linear cascaded cavity configuration with bidirectional upconversion pumping at 1064 nm.

Proceedings Article | 8 February 2012 Paper

Indium fluoride glass fibers

Mohammed Saad

Proceedings Volume 8275, 82750D (2012) https://doi.org/10.1117/12.906820

KEYWORDS: Optical fibers, Glasses, Indium, Zirconium, ZBLAN, Infrared radiation, Signal attenuation, Multimode fibers, Absorption, Crystals

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Proceedings Article | 29 November 2011 Paper

Heavy metal fluoride glass fibers and their applications

Mohammed Saad

Proceedings Volume 8307, 83070N (2011) https://doi.org/10.1117/12.915295

KEYWORDS: Optical fibers, Glasses, Fiber lasers, Metals, Indium, ZBLAN, Silica, Spectroscopy, Multimode fibers, Infrared radiation

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Proceedings Article | 14 October 2010 Paper

Advances in infrared fibers

Mohammed Saad

Proceedings Volume 7839, 783905 (2010) https://doi.org/10.1117/12.867137

KEYWORDS: Optical fibers, Glasses, Infrared radiation, Signal attenuation, Single mode fibers, Fiber lasers, Silica, ZBLAN, Indium, Laser spectroscopy

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Proceedings Article | 28 April 2009 Paper

Fluoride glass fiber: state of the art

Mohammed Saad

Proceedings Volume 7316, 73160N (2009) https://doi.org/10.1117/12.824112

KEYWORDS: Glasses, ZBLAN, Optical fibers, Infrared radiation, Absorption, Indium, Oxides, Fiber lasers, Single mode fibers, Ultraviolet radiation

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Proceedings Article | 10 February 2009 Paper

High purity fluoride glass synthesis: a review

Mohammed Saad

Proceedings Volume 7228, 72280G (2009) https://doi.org/10.1117/12.810495

KEYWORDS: Glasses, Optical fibers, Oxides, Transition metals, Zirconium, ZBLAN, Crystals, Silica, Absorption, Iron

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Proceedings Article | 7 February 2008 Paper

Fluoride glass fiber for reliable Er:YAG and Er,Cr:YSGG laser power delivery

François Séguin, Mohammed Saad, Patrick Orsini, Dieter Baierl

Proceedings Volume 6852, 68520D (2008) https://doi.org/10.1117/12.761053

KEYWORDS: Fiber lasers, Glasses, Absorption, Cladding, Polymers, Coating, Er:YAG lasers, Signal attenuation, ZBLAN, Laser applications

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Proceedings Article | 10 December 1999 Paper

Future of nonoxide fiber lasers: searching for the commercial application

Robert Larose, Mohammed Saad

Proceedings Volume 3849, (1999) https://doi.org/10.1117/12.372792

KEYWORDS: Fiber lasers, Semiconductor lasers, Optical fibers, Glasses, Silica, Laser applications, Erbium lasers, Absorption, Diodes, Quantum cascade lasers

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