Xiuji Lin scite author profile

The development of visible fiber lasers toward increasing power and variety has facilitated their usage in a rapidly growing number of scientific and industrial applications. Until now, holes in the visible spectral region have remained difficult or expensive to fill. Green laser oscillation in Ho3+ active fibers has contributed to bridging the so-called “green gap” between readily accessible spectral ranges, which is difficult to access with conventional semiconductor laser sources. However, green fiber lasers are limited in power because of the lack of high-brightness pump sources. Their wavelength tuning capability is also bottlenecked at short emission wavelengths due to the strong signal reabsorption. In this study, we developed a means of continuously tunable laser operation at the true-green wavelength of 535–553 nm. In a free-running laser operation, an output power up to 0.98 W was achieved at a center wavelength of 543.1 nm, yielding a Gaussian-like beam. This represents the highest power level demonstrated to date from a visible Ho3+-doped fiber laser. The results enable a new class of broadband green tunable fiber lasers with a power level on the order of watts and beyond, filling in the “green gap”.

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Xiuji Lin

Highly efficient LD-pumped 607 nm high-power CW Pr3+: YLF lasers

LD-pumped high-power CW Pr3+:YLF Laguerre-Gaussian lasers at 639 nm

Green Wavelength-Tunable and High Power Ho³⁺-Doped Upconversion Fiber Lasers

Spectral analysis of new-wavelength transitions originated from 1D2 level of Pr:YLF crystal

Watt-Level Visible Continuous-Wave Upconversion Fiber Lasers toward the “Green Gap” Wavelengths of 535–553 nm

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Xiuji Lin

Highly efficient LD-pumped 607 nm high-power CW Pr3+: YLF lasers

LD-pumped high-power CW Pr3+:YLF Laguerre-Gaussian lasers at 639 nm

Green Wavelength-Tunable and High Power Ho3+-Doped Upconversion Fiber Lasers

Spectral analysis of new-wavelength transitions originated from 1D2 level of Pr:YLF crystal

Watt-Level Visible Continuous-Wave Upconversion Fiber Lasers toward the “Green Gap” Wavelengths of 535–553 nm

Contact Info

Product

Resources

About

Green Wavelength-Tunable and High Power Ho³⁺-Doped Upconversion Fiber Lasers