The Near Infrared Imager and Slitless Spectrograph for JWST. V. Kernel Phase Imaging and Data Analysis

Author:

Kammerer JensORCID,Cooper Rachel A.ORCID,Vandal ThomasORCID,Thatte Deepashri,Martinache FrantzORCID,Sivaramakrishnan AnandORCID,Chaushev Alexander,Stolker TomasORCID,Lloyd James P.,Albert LoïcORCID,Doyon René,Sallum Steph,Perrin Marshall D.,Pueyo Laurent,Mérand Antoine,Gallenne AlexandreORCID,Greenbaum AlexandraORCID,Sanchez-Bermudez Joel,Blakely DoriORCID,Johnstone DougORCID,Volk KevinORCID,Martel Andre,Goudfrooij PaulORCID,Meyer Michael R.ORCID,Willott Chris J.ORCID,Furio Matthew DeORCID,Dang LisaORCID,Radica MichaelORCID,Noirot Gaël

Abstract

Abstract Kernel phase imaging (KPI) enables the direct detection of substellar companions and circumstellar dust close to and below the classical (Rayleigh) diffraction limit. The high-Strehl full pupil images provided by the James Webb Space Telescope (JWST) are ideal for application of the KPI technique. We present a kernel phase analysis of JWST NIRISS full pupil images taken during the instrument commissioning and compare the performance to closely related NIRISS aperture masking interferometry (AMI) observations. For this purpose, we develop and make publicly available the custom Kpi3Pipeline data reduction pipeline enabling the extraction of kernel phase observables from JWST images. The extracted observables are saved into a new and versatile kernel phase FITS file data exchange format. Furthermore, we present our new and publicly available fouriever toolkit which can be used to search for companions and derive detection limits from KPI, AMI, and long-baseline interferometry observations while accounting for correlated uncertainties in the model fitting process. Among the four KPI targets that were observed during NIRISS instrument commissioning, we discover a low-contrast (∼1:5) close-in (∼1 λ/D) companion candidate around CPD-66 562 and a new high-contrast (∼1:170) detection separated by ∼1.5 λ/D from 2MASS J062802.01-663738.0. The 5σ companion detection limits around the other two targets reach ∼6.5 mag at ∼200 mas and ∼7 mag at ∼400 mas. Comparing these limits to those obtained from the NIRISS AMI commissioning observations, we find that KPI and AMI perform similar in the same amount of observing time. Due to its 5.6 times higher throughput if compared to AMI, KPI is beneficial for observing faint targets and superior to AMI at separations ≳325 mas. At very small separations (≲100 mas) and between ∼250 and 325 mas, AMI slightly outperforms KPI which suffers from increased photon noise from the core and the first Airy ring of the point-spread function.

Funder

H2020 European Research Council

Centro de Investigación Científica y de Educación Superior de Ensenada, Baja California

ANID-ALMA

Heising-Simons Foundation

Publisher

IOP Publishing

Subject

Space and Planetary Science,Astronomy and Astrophysics

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