Y
Y. Copin
Researcher at Lyon College
Publications - 216
Citations - 19442
Y. Copin is an academic researcher from Lyon College. The author has contributed to research in topics: Supernova & Galaxy. The author has an hindex of 55, co-authored 183 publications receiving 16610 citations. Previous affiliations of Y. Copin include University of Nottingham & Claude Bernard University Lyon 1.
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Journal ArticleDOI
The Astropy Project: Building an Open-science Project and Status of the v2.0 Core Package
Adrian M. Price-Whelan,B. M. Sipőcz,Hans Moritz Günther,P. L. Lim,Steven M. Crawford,S. Conseil,D. L. Shupe,M. W. Craig,N. Dencheva,Adam Ginsburg,Jacob T VanderPlas,Larry Bradley,David Pérez-Suárez,M. de Val-Borro,T. L. Aldcroft,Kelle L. Cruz,Thomas P. Robitaille,E. J. Tollerud,C. Ardelean,Tomáš Babej,Y. P. Bach,Matteo Bachetti,A. V. Bakanov,Steven P. Bamford,Geert Barentsen,Pauline Barmby,Andreas Baumbach,Katherine Berry,F. Biscani,Médéric Boquien,K. A. Bostroem,L. G. Bouma,G. B. Brammer,E. M. Bray,H. Breytenbach,H. Buddelmeijer,D. J. Burke,G. Calderone,J. L. Cano Rodríguez,Mihai Cara,José Vinícius de Miranda Cardoso,S. Cheedella,Y. Copin,Lia Corrales,Devin Crichton,D. DÁvella,Christoph Deil,É. Depagne,J. P. Dietrich,Axel Donath,M. Droettboom,Nicholas Earl,T. Erben,Sebastien Fabbro,Leonardo Ferreira,T. Finethy,R. T. Fox,Lehman H. Garrison,S. L. J. Gibbons,Daniel A. Goldstein,Ralf Gommers,Johnny P. Greco,P. Greenfield,A. M. Groener,Frédéric Grollier,A. Hagen,P. Hirst,Derek Homeier,Anthony Horton,Griffin Hosseinzadeh,L. Hu,J. S. Hunkeler,Ž. Ivezić,A. Jain,T. Jenness,G. Kanarek,Sarah Kendrew,Nicholas S. Kern,Wolfgang Kerzendorf,A. Khvalko,J. King,D. Kirkby,A. M. Kulkarni,Ashok Kumar,Antony Lee,D. Lenz,S. P. Littlefair,Zhiyuan Ma,D. M. Macleod,M. Mastropietro,C. McCully,S. Montagnac,Brett M. Morris,M. Mueller,Stuart Mumford,D. Muna,Nicholas A. Murphy,Stefan Nelson,G. H. Nguyen,Joe Philip Ninan,M. Nöthe,S. Ogaz,Seog Oh,J. K. Parejko,N. R. Parley,Sergio Pascual,R. Patil,A. A. Patil,A. L. Plunkett,Jason X. Prochaska,T. Rastogi,V. Reddy Janga,J. Sabater,Parikshit Sakurikar,Michael Seifert,L. E. Sherbert,H. Sherwood-Taylor,A. Y. Shih,J. Sick,M. T. Silbiger,Sudheesh Singanamalla,Leo Singer,P. H. Sladen,K. A. Sooley,S. Sornarajah,Ole Streicher,P. Teuben,Scott Thomas,Grant R. Tremblay,J. Turner,V. Terrón,M. H. van Kerkwijk,A. de la Vega,Laura L. Watkins,B. A. Weaver,J. Whitmore,Julien Woillez,Victor Zabalza,Astropy Contributors +138 more
TL;DR: The Astropy project as discussed by the authors is a Python project supporting the development of open-source and openly developed Python packages that provide commonly needed functionality to the astronomical community, including the core package astropy.
Journal ArticleDOI
The Astropy Project: Building an inclusive, open-science project and status of the v2.0 core package
Adrian M. Price-Whelan,Brigitta Sipőcz,Hans Moritz Günther,P. L. Lim,Steven M. Crawford,Simon Conseil,David L. Shupe,Matt Craig,N. Dencheva,Adam Ginsburg,Jacob T VanderPlas,Larry Bradley,David Pérez-Suárez,M. de Val-Borro,T. L. Aldcroft,Kelle L. Cruz,Thomas P. Robitaille,Erik J. Tollerud,C. Ardelean,Tomáš Babej,Matteo Bachetti,A. V. Bakanov,Steven P. Bamford,Geert Barentsen,Pauline Barmby,Andreas Baumbach,Katherine Berry,F. Biscani,Médéric Boquien,K. A. Bostroem,L. G. Bouma,G. B. Brammer,Erik Bray,H. Breytenbach,H. Buddelmeijer,Douglas Burke,G. Calderone,J. L. Cano Rodríguez,Mihai Cara,José Vinícius de Miranda Cardoso,S. Cheedella,Y. Copin,Devin Crichton,D. DÁvella,Christoph Deil,Éric Depagne,J. P. Dietrich,Axel Donath,Michael Droettboom,Nicholas Earl,T. Erben,Sebastien Fabbro,Leonardo Ferreira,T. Finethy,R. T. Fox,Lehman H. Garrison,S. L. J. Gibbons,Daniel A. Goldstein,Ralf Gommers,Johnny P. Greco,Perry Greenfield,A. M. Groener,Frédéric Grollier,Alex Hagen,Paul Hirst,Derek Homeier,Anthony Horton,Griffin Hosseinzadeh,L. Hu,J. S. Hunkeler,Željko Ivezić,A. Jain,Tim Jenness,G. Kanarek,Sarah Kendrew,Nicholas S. Kern,Wolfgang Kerzendorf,A. Khvalko,J. King,D. Kirkby,A. M. Kulkarni,Ashok Kumar,Antony Lee,D. Lenz,S. P. Littlefair,Zhiyuan Ma,D. M. Macleod,M. Mastropietro,C. McCully,S. Montagnac,Brett M. Morris,Michael Mueller,Stuart Mumford,Demitri Muna,Nicholas A. Murphy,Stefan Nelson,G. H. Nguyen,Joe Philip Ninan,M. Nöthe,S. Ogaz,Seog Oh,John K. Parejko,N. R. Parley,Sergio Pascual,R. Patil,A. A. Patil,A. L. Plunkett,Jason X. Prochaska,T. Rastogi,V. Reddy Janga,Josep Sabater,Parikshit Sakurikar,Michael Seifert,L. E. Sherbert,H. Sherwood-Taylor,A. Y. Shih,J. Sick,M. T. Silbiger,Sudheesh Singanamalla,Leo Singer,P. H. Sladen,K. A. Sooley,S. Sornarajah,Ole Streicher,Peter Teuben,Scott Thomas,Grant R. Tremblay,J. Turner,V. Terrón,M. H. van Kerkwijk,A. de la Vega,Laura L. Watkins,B. A. Weaver,J. Whitmore,Julien Woillez,Victor Zabalza +135 more
TL;DR: The Astropy project as discussed by the authors is an open-source and openly developed Python packages that provide commonly-needed functionality to the astronomical community, including the core package Astropy, which serves as the foundation for more specialized projects and packages.
Journal ArticleDOI
Adaptive spatial binning of integral-field spectroscopic data using Voronoi tessellations
Michele Cappellari,Y. Copin +1 more
TL;DR: In this article, adaptive spatial binning of integral-field spectroscopic (IFS) data is presented to reach a chosen constant signal-to-noise ratio per bin. But the method is not suitable for standard photometric imagery or any other 2D data.
Journal ArticleDOI
Adaptive spatial binning of integral-field spectroscopic data using Voronoi tessellations
Michele Cappellari,Y. Copin +1 more
TL;DR: In this article, adaptive spatial binning of Integral-Field Spectroscopic (IFS) data to reach a chosen constant signal-to-noise ratio per bin is presented.
Journal ArticleDOI
The SAURON project – I. The panoramic integral-field spectrograph
R. Bacon,Y. Copin,G. Monnet,Bryan W. Miller,Jeremy R. Allington-Smith,Martin Bureau,C. Marcella Carollo,Roger L. Davies,Eric Emsellem,Harald Kuntschner,Reynier Peletier,E. K. Verolme,P. Tim de Zeeuw +12 more
TL;DR: SAURON as discussed by the authors is a new integral field spectrograph based on the Tiger principle, which uses a lenslet array to estimate stellar kinematics, gas kinematic, and line-strength distributions of nearby early-type galaxies.