Long-term stable, synchronizable, low-noise picosecond Ho: fiber NALM oscillator for Ho: YLF amplifier seeding
Optics Letters, 2022•opg.optica.org
We demonstrate a 41.6? MHz, 1.3 ps, 140 pJ Ho: fiber oscillator using a nonlinear
amplifying loop mirror (NALM) as saturable absorber. The oscillator is constructed entirely
with polarization-maintaining (PM) fibers, is tunable with a center wavelength between 2035
nm and 2075 nm, and can be synchronized to an external RF reference. For our application
of Ho: YLF amplifier seeding for dielectric electron acceleration, the laser is tuned to 2050
nm and synchronized to a stable RF reference with 45 fs rms timing jitter in the integration …
amplifying loop mirror (NALM) as saturable absorber. The oscillator is constructed entirely
with polarization-maintaining (PM) fibers, is tunable with a center wavelength between 2035
nm and 2075 nm, and can be synchronized to an external RF reference. For our application
of Ho: YLF amplifier seeding for dielectric electron acceleration, the laser is tuned to 2050
nm and synchronized to a stable RF reference with 45 fs rms timing jitter in the integration …
We demonstrate a 41.6?MHz, 1.3 ps, 140 pJ Ho:fiber oscillator using a nonlinear amplifying loop mirror (NALM) as saturable absorber. The oscillator is constructed entirely with polarization-maintaining (PM) fibers, is tunable with a center wavelength between 2035 nm and 2075 nm, and can be synchronized to an external RF reference. For our application of Ho:YLF amplifier seeding for dielectric electron acceleration, the laser is tuned to 2050 nm and synchronized to a stable RF reference with 45 fs rms timing jitter in the integration interval [10?Hz, 1?MHz]. We show long term synchronized operation and characterize the relative intensity noise (RIN) and timing jitter of the oscillator for two different Tm-fiber pump lasers.
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