Cvetojevic, N.Jovanovic, NemanjaGross, SNorris, BSpaleniak, ISchwab, C.Withford, M. J.Ireland, MichaelTuthill, P.Guyon, OlivierMartinache, FrantzLawrence, J S2021-08-101094-4087http://hdl.handle.net/1885/243857In an attempt to develop a streamlined astrophotonic instrument, we demonstrate the realization of an all-photonic device capable of both multimode to single mode conversion and spectral dispersion on an 8-m class telescope with efficient coupling. The device was a monolithic photonic spectrograph which combined an integrated photonic lantern and an efficient arrayed waveguide grating device. During on-sky testing, we discovered a previously unreported type of noise that made spectral extraction and calibration extremely difficult. The source of the noise was traced to a wavelength-dependent loss mechanism between the feed fiber’s multimode near-field pattern and the modal acceptance profile of the integrated photonic lantern. Extensive modelling of the photonic components replicates the wavelength-dependent loss, and demonstrates an identical effect on the final spectral output. We outline that this could be mitigated by directly injecting into the integrated photonic lantern.Japan Society for the Promotion of Research (23340051, 26220704, 23103002); Australian Research Council Centre of Excellence for Ultrahigh bandwidth Devices for Optical Systems (CE110001018); European Research Council (ERC-STG-639248).application/pdfen-AU© 2017 Optical Society of AmericaSpectrometers and spectroscopic instrumentationGlass waveguidesAstronomical opticsIntegrated optics devicesModal noise in an integrated photonic lantern fed diffraction-limited spectrograph201710.1364/OE.25.0255462020-11-23