2023
DOI: 10.1088/2515-7647/ace869
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2023 Astrophotonics Roadmap: pathways to realizing multi-functional integrated astrophotonic instruments

Nemanja Jovanovic,
Pradip Gatkine,
Narsireddy Anugu
et al.

Abstract: Photonic technologies offer numerous functionalities that can be used to realize astrophotonic instruments. The most spectacular example to date is the ESO Gravity instrument at the Very Large Telescope in Chile that combines the light-gathering power of four 8-m telescopes through a complex photonic interferometer. Fully integrated astrophotonic devices offer critical advantages for instrument development, including extreme miniaturization when operating at the diffraction-limit, plus integration, superior th… Show more

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Cited by 16 publications
(2 citation statements)
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References 654 publications
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“…Therefore, more work should be invested in creating MSPLs with lower levels of cross-talk, as this would result in deeper, naturally broadband nulls that would relieve additional demand on the wavefront control system. 18 Lastly, although the lantern we use in this work is optimized for 1550 nm, silica-based mode-selective lanterns can be designed to operate at different wavelengths, ranging from the visible spectrum up to about 2 um. However, other fiber technologies 19 would be needed to access wavelengths outside of this range.…”
Section: Discussion and Future Workmentioning
confidence: 99%
“…Therefore, more work should be invested in creating MSPLs with lower levels of cross-talk, as this would result in deeper, naturally broadband nulls that would relieve additional demand on the wavefront control system. 18 Lastly, although the lantern we use in this work is optimized for 1550 nm, silica-based mode-selective lanterns can be designed to operate at different wavelengths, ranging from the visible spectrum up to about 2 um. However, other fiber technologies 19 would be needed to access wavelengths outside of this range.…”
Section: Discussion and Future Workmentioning
confidence: 99%
“…Importantly, when used to couple the aberrated telescope beam in the focal plane, PLs already have utility in several high-contrast imaging applications, including spectro-imaging and starlight nulling. PLs are also uniquely suited to couple aberrated telescope light into highly stable diffraction-limited spectrometers (Lin et al 2021), enabling direct exoplanet spectroscopy, and can serve as a gateway into a wider ecosystem of astrophotonic devices such as arrayed waveguide gratings and photonic integrated circuits (Jovanovic et al 2023). Simultaneously, low-spatial-frequency aberrations such as NCPAs and LWE modes can be sensed in the true science focal plane by monitoring the fluxes of the lantern's outputs.…”
Section: Introductionmentioning
confidence: 99%