Ultrafast fiber lasers (UFLs) have become an attractive alternative to solid-state lasers (SSL) due to their excellent beam quality, compactness, environmental stability, and easy thermal management. In the last decade, a significant research effort is spent to identify UFL architectures providing pulse energy, duration, and peak power comparable to those of complex and expensive, Ti:sapphire laser systems and semiconductor saturable absorber mirrors mode-locked, Yb-doped SSL. Lately, Mamyshev oscillators (MOs), relying on offset spectral filtering combined with nonlinear spectral broadening by self-phase modulation, emerge as a promising solution and are rapidly becoming the state of the art for high energy/peak power UFLs based on large-mode-area (LMA) fibers. The focus of this work is the first demonstration of starting of the mode-locking regime in an LMA MO with an affordable passively Q-switched microchip laser. This solution was previously demonstrated only in low-power MO based on single-mode fibers, which are intrinsically easier to seed, if compared to high-gain LMA UFLs, because of the lower amplified spontaneous emission noise floor. This starting technique in an easy-to-implement ring LMA MO at 1 mu m is tested. The oscillator provides approximate to 50 nJ pulses at 12 MHz repetition rate with a minimum pulse duration of approximate to 50 fs after compression, resulting in MW peak power.

1 MW Peak-Power Mamyshev Oscillator Started by a Passively Q-Switched Microchip Laser

Gotti
;
Carra;Pizzurro;Agnesi;Pirzio;
2024-01-01

Abstract

Ultrafast fiber lasers (UFLs) have become an attractive alternative to solid-state lasers (SSL) due to their excellent beam quality, compactness, environmental stability, and easy thermal management. In the last decade, a significant research effort is spent to identify UFL architectures providing pulse energy, duration, and peak power comparable to those of complex and expensive, Ti:sapphire laser systems and semiconductor saturable absorber mirrors mode-locked, Yb-doped SSL. Lately, Mamyshev oscillators (MOs), relying on offset spectral filtering combined with nonlinear spectral broadening by self-phase modulation, emerge as a promising solution and are rapidly becoming the state of the art for high energy/peak power UFLs based on large-mode-area (LMA) fibers. The focus of this work is the first demonstration of starting of the mode-locking regime in an LMA MO with an affordable passively Q-switched microchip laser. This solution was previously demonstrated only in low-power MO based on single-mode fibers, which are intrinsically easier to seed, if compared to high-gain LMA UFLs, because of the lower amplified spontaneous emission noise floor. This starting technique in an easy-to-implement ring LMA MO at 1 mu m is tested. The oscillator provides approximate to 50 nJ pulses at 12 MHz repetition rate with a minimum pulse duration of approximate to 50 fs after compression, resulting in MW peak power.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11571/1497495
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