6533b7dbfe1ef96bd12700dd
RESEARCH PRODUCT
All polarization-maintaining passively mode-locked fiber-ring ytterbium-doped laser; from net-normal to net-anomalous dispersion
Miguel V. AndrésJose L. CruzChristian Cuadrado-labordeChristian Cuadrado-labordeChristian Cuadrado-labordeAntonio DiezA. Carrascosasubject
Ytterbiumoptical fiberMaterials sciencePhysics::Opticschemistry.chemical_elementIndustrial and Manufacturing Engineeringlaw.invention:FÍSICA [UNESCO]lawFiber laserFiber ringInstrumentationbusiness.industryFiber laserDopingUNESCO::FÍSICAmode-locked laserCondensed Matter PhysicsPolarization (waves)LaserAtomic and Molecular Physics and OpticschemistryMode-lockingOptoelectronicsbusinessPhotonic-crystal fiberdescription
We investigated the behavior of a fiber-ring polarization-maintaining passively modelocked ytterbium-doped laser in a broad range of dispersion values; i.e., from highly net-normal to net-anomalous, with a special emphasis near the zero of chromatic dispersion. Different lengths of an ad hoc polarization-maintaining photonic crystal fiber were used as intracavity dispersion compensator to shift the operation of this laser from net-normal to the net-anomalous regime. The laser generated the shortest light pulses around the zero of dispersion: 6 ps / 7ps for −0.023 ps2 / 0.045 ps2 ; in both cases, pulses were not transform-limited, being theoretically possible an out-of-cavity recompression down to 170 fs / 220 fs, respectively. In the net-normal regime, we obtained a stable, ultra-low frequency, emission at 1.19 MHz, with pulses with a FWHM of 162 ps and pulse energy of 115 pJ. This laser presents a somewhat symmetrical behavior at both sides of the zero of dispersion thanks to its simple filter-free configuration. The laser is also environmentally robust, insensitive against temperature variations and mechanical vibrations, due to its integrated all-polarization-maintaining design.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-05-11 | Laser Physics |