Litcius/Paper detail

Kilowatt random Raman fiber laser with full-open cavity

Hanwei Zhang, Jinming Wu, Yingchao Wan, Peng Wang, Baolai Yang, Xiaoming Xi, Xiaolin Wang, Pu Zhou

2021Optics Letters27 citationsDOI

Abstract

Random Raman fiber laser (RRFL) has been widely studied in high-power laser generation due to its special lasing characteristics. However, all previous high-power results are based on the half-open cavity. In this letter, we demonstrate an applicable high-power RRFL with the simplest structure, that is, a full-open cavity. The lasing dynamic and output characteristics are theoretically and experimentally studied. Laser source with multi-longitudinal modes can result in the random laser output from one side even in the full-open cavity. The ratio of the backward output power is mainly determined by the reflectivity of fiber ends. The experimental results show that such a simple structure can easily generate kilowatts of random laser power and is a promising setup to achieve higher output power, which is also an important platform to study the laser dynamic in high-power full-open cavity without any point-action or regular distributed reflectors.

Topics & Concepts

OpticsLasing thresholdMaterials scienceFiber laserLaserLaser power scalingDistributed feedback laserRaman laserInjection seederOptoelectronicsRaman spectroscopyRaman scatteringRandom laserOptical fiberFiber Bragg gratingPower (physics)Optical cavityPolarization-maintaining optical fiberGain-switchingFiberTunable laserPhotonic-crystal fiberLaser pumpingLaser linewidthDouble-clad fiberGraded-index fiberRandom lasers and scattering mediaSolid State Laser TechnologiesPhotonic Crystal and Fiber Optics