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Achromatic photonic tricouplers for application in nulling interferometry

Marc-Antoine Martinod, Peter Tuthill, Simon Gross, Barnaby Norris, David Sweeney, Michael J. Withford

2021Applied Optics20 citationsDOIOpen Access PDF

Abstract

Integrated-optic components are being increasingly used in astrophysics, mainly where accuracy and precision are paramount. One such emerging technology is nulling interferometry that targets high contrast and high angular resolution. Two of the most critical limitations encountered by nullers are rapid phase fluctuations in the incoming light causing instability in the interference and chromaticity of the directional couplers that prevent a deep broadband interferometric null. We explore the use of a tricoupler designed by ultrafast laser inscription that solves both issues. Simulations of a tricoupler, incorporated into a nuller, result in an order of a magnitude improvement in null depth.

Topics & Concepts

OpticsAchromatic lensInterferometryPhysicsInterference (communication)BroadbandPhase (matter)LaserUltrashort pulsePhotonicsStray lightChromaticityPhase modulationWavefrontWhite light interferometryRefractive indexSensitivity (control systems)Interferometric visibilityHigh contrastNull (SQL)Advanced Fiber Laser TechnologiesAdaptive optics and wavefront sensingOptical Network Technologies
Achromatic photonic tricouplers for application in nulling interferometry | Litcius