High power mode-locked erbium-ytterbium doped fiber laser using GIMF-SIMF-GIMF fiber structure as saturable absorber
In this work, we demonstrate high-power mode-locked pulses in a double-clad erbium ytterbium-doped fiber laser (EYDFL) cavity using a saturable absorber with a structure of graded-index multimode fiber-step index multimode fiber-graded index multimode fiber (GIMF-SIMF-GIMF). Ultra-short pulses with...
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my.um.eprints.384732024-11-10T04:53:34Z http://eprints.um.edu.my/38473/ High power mode-locked erbium-ytterbium doped fiber laser using GIMF-SIMF-GIMF fiber structure as saturable absorber Ahmad, Harith Mansor, Nur Hidayah Samion, Muhamad Zharif Reduan, Siti Aisyah Q Science (General) QC Physics In this work, we demonstrate high-power mode-locked pulses in a double-clad erbium ytterbium-doped fiber laser (EYDFL) cavity using a saturable absorber with a structure of graded-index multimode fiber-step index multimode fiber-graded index multimode fiber (GIMF-SIMF-GIMF). Ultra-short pulses with a pulse duration of 2.32 ps and a repetition rate of 14.1 MHz with a center wavelength at 1543 nm were obtained. The measured signal-to-noise ratio was 54.5 dB. The highest average output power obtained was 322 mW when 8 W was pumped into the cavity. It has a pulse energy and peak power of 22.8 nJ and 9.84 kW respectively. The calculated peak power intensity was 15.4 GW/cm(2). This is the first report that demonstrated a GIMF-SIMF-GIMF-based SA in an EYDFL cavity in generating a high energy and peak power mode-locked fiber laser. Springer 2023-03 Article PeerReviewed Ahmad, Harith and Mansor, Nur Hidayah and Samion, Muhamad Zharif and Reduan, Siti Aisyah (2023) High power mode-locked erbium-ytterbium doped fiber laser using GIMF-SIMF-GIMF fiber structure as saturable absorber. Optical and Quantum Electronics, 55 (3). ISSN 0306-8919, DOI https://doi.org/10.1007/s11082-022-04457-2 <https://doi.org/10.1007/s11082-022-04457-2>. 10.1007/s11082-022-04457-2 |
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Q Science (General) QC Physics Ahmad, Harith Mansor, Nur Hidayah Samion, Muhamad Zharif Reduan, Siti Aisyah High power mode-locked erbium-ytterbium doped fiber laser using GIMF-SIMF-GIMF fiber structure as saturable absorber |
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In this work, we demonstrate high-power mode-locked pulses in a double-clad erbium ytterbium-doped fiber laser (EYDFL) cavity using a saturable absorber with a structure of graded-index multimode fiber-step index multimode fiber-graded index multimode fiber (GIMF-SIMF-GIMF). Ultra-short pulses with a pulse duration of 2.32 ps and a repetition rate of 14.1 MHz with a center wavelength at 1543 nm were obtained. The measured signal-to-noise ratio was 54.5 dB. The highest average output power obtained was 322 mW when 8 W was pumped into the cavity. It has a pulse energy and peak power of 22.8 nJ and 9.84 kW respectively. The calculated peak power intensity was 15.4 GW/cm(2). This is the first report that demonstrated a GIMF-SIMF-GIMF-based SA in an EYDFL cavity in generating a high energy and peak power mode-locked fiber laser. |
| format |
Article |
| author |
Ahmad, Harith Mansor, Nur Hidayah Samion, Muhamad Zharif Reduan, Siti Aisyah |
| author_facet |
Ahmad, Harith Mansor, Nur Hidayah Samion, Muhamad Zharif Reduan, Siti Aisyah |
| author_sort |
Ahmad, Harith |
| title |
High power mode-locked erbium-ytterbium doped fiber laser using GIMF-SIMF-GIMF fiber structure as saturable absorber |
| title_short |
High power mode-locked erbium-ytterbium doped fiber laser using GIMF-SIMF-GIMF fiber structure as saturable absorber |
| title_full |
High power mode-locked erbium-ytterbium doped fiber laser using GIMF-SIMF-GIMF fiber structure as saturable absorber |
| title_fullStr |
High power mode-locked erbium-ytterbium doped fiber laser using GIMF-SIMF-GIMF fiber structure as saturable absorber |
| title_full_unstemmed |
High power mode-locked erbium-ytterbium doped fiber laser using GIMF-SIMF-GIMF fiber structure as saturable absorber |
| title_sort |
high power mode-locked erbium-ytterbium doped fiber laser using gimf-simf-gimf fiber structure as saturable absorber |
| publisher |
Springer |
| publishDate |
2023 |
| url |
http://eprints.um.edu.my/38473/ |
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1816130400329662464 |
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