Abstract Micro-Spec is a direct-detection spectrometer which integrates all the components of a diffraction-grating spectrometer onto a 10 -cm2 chip through the use of superconducting microstrip transmission lines on a single-crystal silicon substrate. The second generation of Micro-Spec is being designed to operate with a spectral resolution of at least 512 in the far-infrared and submillimeter (420–540 GHz, 714–555 μm) wavelength range, a band of interest for NASA's experiment for cryogenic large-aperture intensity mapping called EXCLAIM. EXCLAIM will be a balloon-borne telescope that is being designed to map the emission of redshifted carbon monoxide and singly-ionized carbon lines over a redshift range 0 < z < 3.5 and it will be the first demonstration of the Micro-Spec technology in a space-like environment. This work reviews the status of the Micro-Spec design for the EXCLAIM telescope, with emphasis on the spectrometer's two-dimensional diffractive region, through which light of different wavelengths is focused on kinetic inductance detectors along the instrument focal plane. An optimization process is used to generate a geometrical configuration of the diffractive region that satisfies specific requirements on size, operating spectral range and performance. An initial optical design optimized for EXCLAIM is presented in terms of geometric layout, spectral purity and efficiency.

    Micro-Spec is a far-infrared spectrometer on a chip the size of a credit card. High spectral purity is attained by using 3 stigmatic points on its focal plane. Micro-Spec is designed to achieve a resolution of 512 and near-unity efficiency. Multiple Micro-Spec modules coupled together enable multi-object spectroscopy. Micro-Spec will be tested in a space-like environment on balloon-borne missions.


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    Title :

    Second-generation Micro-Spec: A compact spectrometer for far-infrared and submillimeter space missions



    Published in:

    Acta Astronautica ; 162 ; 155-159


    Publication date :

    2019-06-07


    Size :

    5 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English