The SPHERE infrared survey for exoplanets (SHINE). V. Complete observations, data reduction and analysis, detection performances, and final results

A. Chomez; P. Delorme; A.-M. Lagrange; R. Gratton; O. Flasseur; G. Chauvin; M. Langlois; J. Mazoyer; A. Zurlo; S. Desidera; D. Mesa; M. Bonnefoy; M. Feldt; J. Hagelberg; M. Meyer; A. Vigan; C. Ginski; M. Kenworthy; D. Albert; S. Bergeon; J.-L. Beuzit; B. Biller; T. Bhowmik; A. Boccaletti; M. Bonavita; W. Brandner; F. Cantalloube; A. Cheetham; V. D'Orazi; C. Dominik; C. Fontanive; R. Galicher; Th. Henning; M. Janson; Q. Kral; E. Lagadec; C. Lazzoni; H. Le Coroller; R. Ligi; A.-L. Maire; G.-D. Marleau; F. Menard; S. Messina; N. Meunier; C. Mordasini; C. Moutou; A. M\"uller; C. Perrot; M. Samland; H. M. Schmid; T. Schmidt; V. Squicciarini; E. Sissa; M. Turatto; S. Udry; L. Abe; J. Antichi; R. Asensio-Torres; A. Baruffolo; P. Baudoz; J. Baudrand; A. Bazzon; P. Blanchard; A. J. Bohn; S. Brown Sevilla; M. Carbillet; M. Carle; E. Cascone; J. Charton; R. Claudi; A. Costille; V. De Caprio; A. Delboulbe; K. Dohlen; N. Engler; D. Fantinel; P. Feautrier; T. Fusco; P. Gigan; J. H. Girard; E. Giro; D. Gisler; L. Gluck; C. Gry; N. Hubin; E. Hugot; M. Jaquet; M. Kasper; D. Le Mignant; M. Llored; F. Madec; Y. Magnard; P. Martinez; D. Maurel; O. M\"oller-Nilsson; D. Mouillet; T. Moulin; A. Orign\'e; A. Pavlov; D. Perret; C. Petit; J. Pragt; P. Puget; P. Rabou; J. Ramos; E. L. Rickman; F. Rigal; S. Rochat; R. Roelfsema; G. Rousset; A. Roux; B. Salasnich; J.-F. Sauvage; A. Sevin; C. Soenke; E. Stadler; M. Suarez; Z. Wahhaj; L. Weber; F. Wildi

arXiv:2501.12002·astro-ph.EP·May 14, 2025

The SPHERE infrared survey for exoplanets (SHINE). V. Complete observations, data reduction and analysis, detection performances, and final results

A. Chomez, P. Delorme, A.-M. Lagrange, R. Gratton, O. Flasseur, G. Chauvin, M. Langlois, J. Mazoyer, A. Zurlo, S. Desidera, D. Mesa, M. Bonnefoy, M. Feldt, J. Hagelberg, M. Meyer, A. Vigan, C. Ginski, M. Kenworthy, D. Albert, S. Bergeon, J.-L. Beuzit, B. Biller, T. Bhowmik

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TL;DR

The SHINE survey used advanced imaging techniques to study young gas giant exoplanets around 400 nearby stars, significantly improving detection limits and identifying numerous candidate companions, including one confirmed substellar object.

Contribution

This paper presents the complete data reduction, analysis, and results of the largest and deepest direct imaging survey for exoplanets, utilizing advanced post-processing techniques to enhance detection sensitivity.

Findings

01

Detected over 3500 physical sources.

02

Confirmed one substellar companion (HIP 74865 B).

03

Improved contrast detection limits by 1-2 magnitudes.

Abstract

During the past decade, state-of-the-art planet-finder instruments like SPHERE@VLT, coupling coronagraphic devices and extreme adaptive optics systems, unveiled, thanks to large surveys, around 20 planetary mass companions at semi-major axis greater than 10 astronomical units. Direct imaging being the only detection technique to be able to probe this outer region of planetary systems, the SPHERE infrared survey for exoplanets (SHINE) was designed and conducted from 2015 to 2021 to study the demographics of such young gas giant planets around 400 young nearby solar-type stars. In this paper, we present the observing strategy, the data quality, and the point sources analysis of the full SHINE statistical sample as well as snapSHINE. Both surveys used the SPHERE@VLT instrument with the IRDIS dual band imager in conjunction with the integral field spectrograph IFS and the angular…

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Taxonomy

TopicsAstronomy and Astrophysical Research · Stellar, planetary, and galactic studies · Astronomical Observations and Instrumentation