Fiber delivery of femtosecond pulses from a Ti: sapphire laser
We propose a way to deliver nanojoule-energy, 100-fs pulses at 800?? nm through a few
meters of standard optical fiber. Pulses from a mode-locked laser are compressed
temporally, and then spectrally, to produce the desired pulses at the end of the fiber. Initial
experiments agree well with calculations and demonstrate the benefits of this technique:?
For an energy of∼ 0.5 nJ, the delivered pulses are∼ 5 times shorter than those delivered by
other techniques. The issues that must be addressed to scale the technique up to delivered …
meters of standard optical fiber. Pulses from a mode-locked laser are compressed
temporally, and then spectrally, to produce the desired pulses at the end of the fiber. Initial
experiments agree well with calculations and demonstrate the benefits of this technique:?
For an energy of∼ 0.5 nJ, the delivered pulses are∼ 5 times shorter than those delivered by
other techniques. The issues that must be addressed to scale the technique up to delivered …
We propose a way to deliver nanojoule-energy, 100-fs pulses at 800??nm through a few meters of standard optical fiber. Pulses from a mode-locked laser are compressed temporally, and then spectrally, to produce the desired pulses at the end of the fiber. Initial experiments agree well with calculations and demonstrate the benefits of this technique:?For an energy of ∼0.5 nJ, the delivered pulses are ∼5 times shorter than those delivered by other techniques. The issues that must be addressed to scale the technique up to delivered pulse energies of 5??nJ are identified, and the apparatus employs only readily available components. Thus we expect it to find use in the many applications that would benefit from fiber delivery of femtosecond pulses.
opg.optica.org
以上显示的是最相近的搜索结果。 查看全部搜索结果