Titania-coated silica nanocomposite for L-band noise-like pulse fiber laser

A nanocomposite of titania-coated silica saturable absorber (TiO2–SiO2-SA) was fabricated via alkaline fusion and spin-coating. The TiO2–SiO2-SA possessed nonlinear saturable absorption and optical limiting effect with 30.35% modulation depth, 42.57 μJ/cm2 saturation fluence, and 0.0075 cm2/μJ two-p...

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Bibliographic Details
Published in:Journal of luminescence 2023-06, Vol.258, p.119779, Article 119779
Main Authors: Mohd Yusoff, Norita, Lee, Han Kee, Ng, Eng Khoon, Rosli, Natrah Shafiqah, Che Abdullah, Che Azurahanim, Alresheedi, Mohammed Thamer, Mahdi, Mohd Adzir
Format: Article
Language:English
Subjects:
Noise-like pulse
Optical limiting
Saturable absorber
Silicon dioxide
Titanium dioxide
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Summary:A nanocomposite of titania-coated silica saturable absorber (TiO2–SiO2-SA) was fabricated via alkaline fusion and spin-coating. The TiO2–SiO2-SA possessed nonlinear saturable absorption and optical limiting effect with 30.35% modulation depth, 42.57 μJ/cm2 saturation fluence, and 0.0075 cm2/μJ two-photon absorption coefficient. By designing a ring cavity erbium-doped fiber laser in net normal dispersion regime and TiO2–SiO2-SA as mode-locker, a stable noise-like pulse (NLP) at 1.57 μm with ∼21 nm spectral bandwidth was initiated at low threshold power of 22.6 mW, and maintained its operation at maximum pump power of 234 mW. A pulse spike of 587 fs riding on 4.47 ps pulse pedestal at 7.66 MHz repetition frequency confirmed its NLP regime. The generated NLP with TiO2–SiO2-SA was very stable and estimated damage threshold of at least 786 μJ/cm2 pumping fluence suggest its potential as one of next generation nanocomposite materials for ultrafast photonics. •Straightforward synthesis process of TiO2–SiO2 via alkaline fusion method.•TiO2–SiO2 decorated tapered fiber with 30.35% modulation depth is fabricated.•Low threshold of noise-like pulse in L-band wavelength is demonstrated.•First demonstration of TiO2 material in net normal dispersion regime.
ISSN:0022-2313
1872-7883
DOI:10.1016/j.jlumin.2023.119779