Compact cross-grating spectrometer in double-pass configuration: design, implementation, and test

Matthias Kraus; Tobias Hönle; Erik Förster; Robert Brüning; Hartmut Hillmer; Robert Brunner

doi:10.1117/12.2664010

15 June 2023 Compact cross-grating spectrometer in double-pass configuration: design, implementation, and test

Matthias Kraus, Tobias Hönle, Erik Förster, Robert Brüning, Hartmut Hillmer, Robert Brunner

Proceedings Volume 12516, Next-Generation Spectroscopic Technologies XV; 1251607 (2023) https://doi.org/10.1117/12.2664010
Event: SPIE Defense + Commercial Sensing, 2023, Orlando, Florida, United States

Abstract

Echelle-inspired cross-grating spectrometers try to combine the high performance of classical Echelle spectrometers and the small footprint of compact line-grating spectrometers. Therefore, a cross-grating is used which is a superposition of two perpendicularly oriented line gratings in a single element. Highly resolved, but overlapping, diffractions orders are created by the main grating, which are separated by the cross-disperser. This powerful approach is connected to different challenges concerning the optical design, the fabrication of the cross-grating and implementation of the device. These challenges are addressed by a compact and rigid double-pass design, which utilizes the same refractive elements for collimation of the incoming beam and focusing of the diffracted light on the detector. This contribution gives an overview on the design and focusses on the implementation of the spectrometer. This includes on one hand the mounting of the cross-grating and the refractive elements in a rigid objective group and, on the other hand, the adjustment of the objective to the entrance fiber and the 2D detector. Furthermore, the implemented and calibrated instrument allows to conduct several validating experimental tests in order to proof the working principle. The spectrometer addresses a spectral range from 400 nm to 1100 nm and reaches a resolving power of 300 with an entrance pinhole diameter of 105 μm. An even higher resolving power of more than 1000 is reached with a reduced pinhole diameter of approximately 5 μm.

Conference Presentation

Citation Download Citation

Matthias Kraus, Tobias Hönle, Erik Förster, Robert Brüning, Hartmut Hillmer, and Robert Brunner "Compact cross-grating spectrometer in double-pass configuration: design, implementation, and test", Proc. SPIE 12516, Next-Generation Spectroscopic Technologies XV, 1251607 (15 June 2023); https://doi.org/10.1117/12.2664010

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