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Multiwavelength interferometry system for the Orion laser facility.

S Patankar, E T Gumbrell, T S Robinson

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    A new multiwavelength interferometry system for the Orion laser facility uses specialized prisms and achromatic optics. This system enables high-resolution imaging across UV to visible wavelengths, crucial for laser diagnostics.

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    Area of Science:

    • * Laser-plasma interactions
    • * Optical diagnostics
    • * High-energy-density physics

    Background:

    • * The Orion laser facility requires advanced diagnostics for its experiments.
    • * Existing interferometry systems may lack broadband achromatic capabilities or flexibility.

    Purpose of the Study:

    • * To design and test a novel multiwavelength interferometry system for the Orion laser facility.
    • * To demonstrate broadband achromatic performance from UV to visible wavelengths.
    • * To achieve high-resolution imaging of small features.

    Main Methods:

    • * Utilized self-path matching Wollaston prisms for interferometry.
    • * Incorporated UV-corrected achromatic optics for wavelength flexibility.
    • * Employed a 1054 nm Nd:glass probe beam and its harmonics.
    • * Integrated the optics package within a ten-inch manipulator for versatile deployment.

    Main Results:

    • * Demonstrated interferograms at first, second, and fourth harmonics of the probe beam.
    • * Confirmed broadband achromatic capability from 263 nm (UV) to 527 nm (visible).
    • * Resolved features as small as 5 μm on 15x10 mm objects.
    • * Showcased capability at an off-harmonic wavelength for future applications.

    Conclusions:

    • * The developed multiwavelength interferometry system is effective for the Orion laser facility.
    • * The system offers broadband achromatic imaging and high-resolution capabilities.
    • * Its compact design allows for flexible deployment within the target chamber.