Self-starting harmonic mode-locked Tm-Bi co-doped germanate f iber laser with carbon nanotube-based saturable absorber

Saidin, Nur Ubaidah; Zen, D I M; Damanhuri, S S A; Harun, Sulaiman Wadi; Ahmad, Harith; Ahmad, Fauzan; Dimyati, K.; Halder, Arindam; Paul, Mukul Chandra; Pal, Mrinmay; Bhadra, Shyamal Kumar

doi:10.3788/col201311.063201

Cited by 16 publications

(14 citation statements)

References 7 publications

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“…Most studies have been focused on the development of fiber laser systems capable of delivering efficient high-power output at a wavelength of 2 lm because of its applications in the area of remote sensing, medical surgery, environmental sensing, and light sources for efficient mid-IR generation [6][7][8][9]. The well-known electrical transition ( 3 F 4 -3 H 6 ) of Tm 3+ ion is used for fabricating a 2 lm light source.…”

Section: Introductionmentioning

confidence: 99%

Mechanical and ∼2μm emission properties of Tm3+-doped GeO2–TeO2 (or SiO2)–PbO–CaO glasses

et al. 2015

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Section: Introductionmentioning

confidence: 99%

Mechanical and ∼2μm emission properties of Tm3+-doped GeO2–TeO2 (or SiO2)–PbO–CaO glasses

et al. 2015

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“…1(a). The absorption spectrum was characterized by transition bands from the 3 H6 ground state to the excited states 3 F4, 3 H5, 3 H4, 3 F2, 3,1 G4. This spectrum exhibited strong absorption near 792 nm, which significantly overlapped with the emission band of present fully developed AlGaAs diode lasers.…”

Section: Experimental Setup and Measurementmentioning

confidence: 99%

“…M 3+ lasers operating on the 3 F4-3 H6 transition near 2 μm have attracted considerable attention owing to their potential applications such as environmental sensing, medical surgery, and light sources for efficient mid-IR generation [1][2][3][4]. In addition, high-degree stark splitting property of the 3 H6 energy level by local electric field yields a broad emission band.…”

Section: Introductionmentioning

confidence: 99%

$\sim 2$ -$\mu \text{m}$ Single-Mode Laser Output in Tm³⁺-Doped Tellurium Germanate Double-Cladding Fiber

Gao

Kuan

Liu

et al. 2015

IEEE Photon. Technol. Lett.

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A single-mode laser output of 0.75 W near 2 μm was obtained with a slope efficiency of 28.7% with respect to the absorbed pump power when a self-developed double-cladding Tm 3+ -doped tellurium germanate glass fiber laser was pumped by using a 793 nm diode laser. The core glass possesses an infrared cut-off edge reaching ~5 μm. The calculated peak emission cross-section of Tm 3+ at 1.9 μm was 6.8 × 10 -21 cm 2 . The measured fluorescence lifetime of 3 F4 energy level was 2.96 ms. A single-mode double-cladding tellurium germanate glass fiber was fabricated in house by using the rod-in-tube drawing technique. The lasing threshold was 0.56 W and the lasing wavelength was centered at 1968 nm. Spatial beam quality of the fiber was measured and a value of M 2 ＝1.36 was obtained.Index Terms-fiber laser, tellurium germanate glass, ~2 μm.

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“…have reported 387.6 MHz (60 th ) HML with graphene-polymer composite in a Tm-doped ring fiber laser 16 . By using carbon nanotube-based SA, 50 MHz (3 th ) and 213 MHz (25 th ) HMLs have been reported, respectively 17 , 18 . 705.9 MHz (37 th ) HML based on fiber-taper-based black phosphorus has been observed in a Tm/Ho doped ring fiber laser 19 .…”

Section: Introductionmentioning

confidence: 99%

14.5 GHz passive harmonic mode-locking in a dispersion compensated Tm-doped fiber laser

Wang

et al. 2017

Sci Rep

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We demonstrate a high repetition rate passive harmonic mode-locking (HML) based on nonlinear polarization evolution (NPE) technique in a Tm-doped ring fiber laser cavity. Small net anomalous cavity dispersion based on dispersion compensation benefited the generation of high repetition rate HML due to the low soliton splitting threshold. Stable HML with a repetition rate of up to 14.5 GHz and a super-mode suppression (SSR) of 19 dB was obtained at the center wavelength of 1982.3 nm, which is about ten times of state of the art at 2 μm band mode-locking fiber laser to our best knowledge. The repetition rate was selectable between 1 GHz to 14.5 GHz through changing the pump power and intra-cavity polarization state, and the SSR better than 25 dB was obtained as the repetition rate less than 5 GHz.

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Self-starting harmonic mode-locked Tm-Bi co-doped germanate f iber laser with carbon nanotube-based saturable absorber

Cited by 16 publications

References 7 publications

Mechanical and ∼2μm emission properties of Tm3+-doped GeO2–TeO2 (or SiO2)–PbO–CaO glasses

Mechanical and ∼2μm emission properties of Tm3+-doped GeO2–TeO2 (or SiO2)–PbO–CaO glasses

$\sim 2$ -$\mu \text{m}$ Single-Mode Laser Output in Tm³⁺-Doped Tellurium Germanate Double-Cladding Fiber

14.5 GHz passive harmonic mode-locking in a dispersion compensated Tm-doped fiber laser

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Self-starting harmonic mode-locked Tm-Bi co-doped germanate f iber laser with carbon nanotube-based saturable absorber

Cited by 16 publications

References 7 publications

Mechanical and ∼2μm emission properties of Tm3+-doped GeO2–TeO2 (or SiO2)–PbO–CaO glasses

Mechanical and ∼2μm emission properties of Tm3+-doped GeO2–TeO2 (or SiO2)–PbO–CaO glasses

$\sim 2$ -$\mu \text{m}$ Single-Mode Laser Output in Tm3+-Doped Tellurium Germanate Double-Cladding Fiber

14.5 GHz passive harmonic mode-locking in a dispersion compensated Tm-doped fiber laser

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Product

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$\sim 2$ -$\mu \text{m}$ Single-Mode Laser Output in Tm³⁺-Doped Tellurium Germanate Double-Cladding Fiber