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    Researchers generated supercontinuum pulses from 1100-1700 nm using Cr:forsterite laser pulses in nitrogen. This offers a new method for creating intense few-cycle pulses in the 1-2 μm range.

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    Area of Science:

    • Laser Physics
    • Nonlinear Optics

    Background:

    • Cr:forsterite lasers are valuable tools for generating ultrashort pulses.
    • Generating intense few-cycle pulses in the 1-2 μm range is challenging.
    • Supercontinuum generation is a key technique for spectral broadening.

    Purpose of the Study:

    • To generate supercontinuum pulses with high energy and excellent beam quality in the 1-2 μm range.
    • To explore nonlinear spectral broadening in molecular nitrogen.
    • To provide an alternative to existing few-cycle pulse synthesis methods.

    Main Methods:

    • Utilizing nonlinear spectral broadening of Cr:forsterite laser pulses (1240 nm, 110 fs).
    • Employing pressurized molecular nitrogen as the nonlinear medium.
    • Characterizing the generated supercontinuum spectra and beam quality.

    Main Results:

    • Successfully generated supercontinuum pulses covering 1100 to 1700 nm.
    • Achieved pulse energies greater than 1.0 mJ with excellent beam quality.
    • Spectra extended over more than half an octave.

    Conclusions:

    • The generated supercontinuum pulses offer an attractive alternative for intense few-cycle pulse synthesis in the 1-2 μm range.
    • This technique is a valuable add-on to Cr:forsterite laser technologies.
    • The results pave the way for new applications in ultrafast optics and spectroscopy.