FIBER LASER DRIVEN THREE-MICRON SOURCE DEVELOPMENT BASED ON DIFFERENCE FREQUENCY GENERATION
J.R. Taylor
Femtosecond Optics Group, London, UK jr.taylor@ic.ac.uk
Ключевые слова: fiber lasers and amplifiers, MOPFA technology, difference frequency generation, parametric amplification, mid infrared generation
Страницы: 24-33
Аннотация
We review our development of wavelength tuneable, high average power, picosecond-pulse, mid- infrared sources in the three micron widow for proposed application in tissue ablation studies and with the objective of source simplification and exploring the potential of all-fiber integration. Initial systems were based on difference frequency generation (DFG) of two synchronous master oscillator power fiber amplifier (MOPFA) schemes. The generated idler was tuneable over the range 3.28-3.45 µm, delivering greater than 3 W of average power, with a maximum pump to total DFG power conversion efficiency of 78 %. By simplifying the seed sources through synchronised in-line modulation of cw diode laser sources, more than 6 W was generated 3.31-3.48 µm with similar efficiency and with near diffraction limited beam quality (M2 = 1.4). In an improved and significantly simplified experimental configuration a source emitting around 3 µm was developed employing a novel χ(3)/χ(2) cascaded nonlinear conversion architecture. Picosecond pulses from a 1.064 µm mode-locked Yb:fiber pump laser were used to generate 1.65 µm signal pulses through χ(3) based four-wave mixing in a polarisation preserving photonic crystal fiber (PCF). The output of the PCF was then directly focused into a periodically poled lithium niobate crystal, generating idler radiation around 3 µm, with peak powers of ~0.5 kW, via χ(2)-based three-wave mixing between the pump and signal pulses.
DOI: 10.15372/AUT20230103 EDN: LXRBVQ
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