# Integrated optics prototype beam combiner for long baseline   interferometry in the L and M bands

**Authors:** Jan Tepper, Lucas Labadie, Romina Diener, Stefano Minardi, J\"org-Uwe, Pott, Robert R. Thomson, Stefan Nolte

arXiv: 1704.05846 · 2017-06-14

## TL;DR

This paper presents a novel mid-infrared integrated optics beam combiner prototype made of GLS glass, demonstrating high interferometric contrast and promising performance for long-baseline interferometry in the L and M bands.

## Contribution

It introduces a new laser-written GLS glass IO prototype for mid-IR interferometry, with comprehensive performance characterization in the L and M bands.

## Key findings

- Interferometric contrast of 94.9% in L band and 92.1% in M band.
- Total throughput of 25.4% including losses.
- Phase variation remains below 0.07 radians across bands.

## Abstract

In the last few years, integrated optics (IO) beam combiners have facilitated the emergence of 4-telescope interferometers such as PIONIER or GRAVITY, boosting the imaging capabilities of the VLTI. However, the spectral range beyond 2.2microns is not ideally covered by the conventional silica based IO. Here, we propose to consider new laser-written IO prototypes made of GLS glasses, a material that permits access to the mid-infrared spectral regime. Our goal is to conduct a full characterization of our mid-IR IO 2-telescope coupler in order to measure the performance levels directly relevant for long-baseline interferometry. We focus in particular on the exploitation of the L and M astronomical bands. We use a dedicated Michelson-interferometer setup to perform Fourier Transform spectroscopy on the coupler and measure its broadband interferometric performance. We also analyze the polarization properties of the coupler, the differential dispersion and phase degradation as well as the modal behavior and the total throughput. We measure broadband interferometric contrasts of 94.9% and 92.1% for unpolarized light in the L and M bands. Spectrally integrated splitting ratios are close to 50% but show chromatic dependence over the considered bandwidths. Additionally, the phase variation due to the combiner is measured and does not exceed 0.04rad and 0.07rad across the band L and M band, respectively. The total throughput of the coupler including Fresnel and injection losses from free-space is 25.4%. The laser-written IO GLS prototype combiners prove to be a reliable technological solution with promising performance for mid-infrared long-baseline interferometry. In the next steps, we will consider more advanced optical functions as well as a fiber-fed input and revise the optical design parameters in order the further enhance the total throughput and achromatic behavior.

## Full text

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## Figures

17 figures with captions in the complete paper: https://tomesphere.com/paper/1704.05846/full.md

## References

37 references — full list in the complete paper: https://tomesphere.com/paper/1704.05846/full.md

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Source: https://tomesphere.com/paper/1704.05846