First on-sky demonstration of an integrated-photonic nulling-interferometer: The GLINT instrument

Barnaby R.M. Norris, Nick Cvetojevic, Tiphaine Lagadec, Nemanja Jovanovic, Simon Gross, Alexander Arriola, Thomas Gretzinger, Marc Antoine Martinod, Olivier Guyon, Julien Lozi, Michael J. Withford, Jon S. Lawrence, Peter Tuthill

Research output: Contribution to journalArticlepeer-review


The characterisation of exoplanets is critical to understanding planet diversity and formation, their atmospheric composition and the potential for life. This endeavour is greatly enhanced when light from the planet can be spatially separated from that of the host star. One potential method is nulling interferometry, where the contaminating starlight is removed via destructive interference. The GLINT instrument is a photonic nulling interferometer with novel capabilities that has now been demonstrated in on-sky testing. The instrument fragments the telescope pupil into sub-apertures that are injected into waveguides within a single-mode photonic chip. Here, all requisite beam splitting, routing and recombination is performed using integrated photonic components. We describe the design, construction and laboratory testing of our GLINT pathfinder instrument. We then demonstrate the efficacy of this method on sky at the Subaru Telescope, achieving a null-depth precision on sky of ∼ 10−4 and successfully determining the angular diameter of stars (via their null-depth measurements) to milliarcsecond accuracy. A statistical method for analysing such data is described, along with an outline of the next steps required to deploy this technique for cutting-edge science.

Original languageEnglish (US)
JournalUnknown Journal
StatePublished - Nov 21 2019


  • Instrumentation: high angular resolution
  • Instrumentation: interferometers
  • Methods: data analysis
  • Planets and satellites: detection
  • Techniques: high angular resolution
  • Techniques: interferometric

ASJC Scopus subject areas

  • General

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