AI Article Synopsis
- A new frontend in a double-chirped pulse amplification system uses crossed-polarized wave generation to create ultra-high contrast femtosecond seed pulses at 1030 nm with energy levels around 150 μJ.
- These seed pulses, derived from a 75 MHz oscillator, undergo stretching, amplification, and recompression to yield 2 mJ of energy, 12 nm bandwidth, and 112 fs duration.
- The use of XPW for temporal filtering significantly reduces background noise to a record low intensity, improving the quality of the laser output.
Article Abstract
We present the results from a new frontend within a double-chirped pulse amplification architecture (DCPA) utilizing crossed-polarized wave generation (XPW) for generating ultra-high contrast, 150 μJ-level, femtosecond seed pulses at 1030 nm. These pulses are used in the high energy class diode-pumped laser system Polaris at the Helmholtz Institute in Jena. Within this frontend, laser pulses from a 75 MHz oscillator-pulse train are extracted at a repetition rate of 1 Hz, temporally stretched, amplified and then recompressed reaching a pulse energy of 2 mJ, a bandwidth of 12 nm and 112 fs pulse duration at a center wavelength of 1030 nm. These pulses are temporally filtered via XPW in a holographic-cut BaF₂ crystal, resulting in 150 μJ pulse energy with an efficiency of 13 %. Due to this non-linear filtering, the relative intensity of the amplified spontaneous emission preceding the main pulse is suppressed to 2×10⁻¹³. This is, to the best of our knowledge, the lowest value achieved in a high peak power laser system operating at 1030 nm center wavelength.
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| http://dx.doi.org/10.1364/OE.22.024776 | DOI Listing |
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