S
Simon J. Lilly
Researcher at ETH Zurich
Publications - 53
Citations - 14925
Simon J. Lilly is an academic researcher from ETH Zurich. The author has contributed to research in topics: Galaxy & Redshift. The author has an hindex of 30, co-authored 53 publications receiving 13948 citations. Previous affiliations of Simon J. Lilly include University of Hawaii at Manoa & École Polytechnique Fédérale de Lausanne.
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Journal ArticleDOI
Mass and environment as drivers of galaxy evolution in SDSS and zCOSMOS and the origin of the Schechter function
Yingjie Peng,Simon J. Lilly,Katarina Kovac,Micol Bolzonella,Lucia Pozzetti,Alvio Renzini,G. Zamorani,Olivier Ilbert,C. Knobel,A. Iovino,Christian Maier,Olga Cucciati,Lidia Tasca,C. Marcella Carollo,John D. Silverman,P. Kampczyk,Loic de Ravel,David B. Sanders,Nick Scoville,Thierry Contini,Vincenzo Mainieri,Marco Scodeggio,Jean-Paul Kneib,Olivier Le Fevre,S. Bardelli,Angela Bongiorno,Karina Caputi,Graziano Coppa,Sylvain de la Torre,P. Franzetti,Bianca Garilli,F. Lamareille,Jean-Francois Le Borgne,Vincent Le Brun,M. Mignoli,Enrique Perez Montero,R. Pello,E. Ricciardelli,Masayuki Tanaka,Laurence Tresse,Daniela Vergani,Niraj Welikala,E. Zucca,Pascal Oesch,U. Abbas,Luke A. Barnes,Rongmon Bordoloi,D. Bottini,A. Cappi,Paolo Cassata,Andrea Cimatti,M. Fumana,Günther Hasinger,Anton M. Koekemoer,A. Leauthaud,D. Maccagni,Christian Marinoni,H. J. McCracken,P. Memeo,B. Meneux,Preethi Nair,Cristiano Porciani,V. Presotto,Roberto Scaramella +63 more
TL;DR: In this paper, the authors explore the simple interrelationships between mass, star formation rate, and environment in the SDSS, zCOSMOS, and other deep surveys.
Journal ArticleDOI
The Cosmic Evolution Survey (COSMOS): Overview*
Nick Scoville,Nick Scoville,Herve Aussel,Marcella Brusa,Peter Capak,C. M. Carollo,Martin Elvis,Mauro Giavalisco,Luigi Guzzo,Guenther Hasinger,Chris Impey,Jean-Paul Kneib,O. LeFevre,Simon J. Lilly,Bahram Mobasher,Alvio Renzini,Alvio Renzini,R. M. Rich,David B. Sanders,Eva Schinnerer,Eva Schinnerer,D. Schminovich,Patrick L. Shopbell,Yoshiaki Taniguchi,Neil De Grasse Tyson +24 more
TL;DR: The Cosmic Evolution Survey (COSMOS) as mentioned in this paper is designed to probe the correlated evolution of galaxies, star formation, active galactic nuclei (AGNs), and dark matter (DM) with large-scale structure (LSS) over the redshift range z > 0.5-6.
Journal ArticleDOI
Mass and environment as drivers of galaxy evolution in SDSS and zCOSMOS and the origin of the Schechter function
Yingjie Peng,Simon J. Lilly,Katarina Kovac,M. Bolzonella,Lucia Pozzetti,Alvio Renzini,G. Zamorani,Olivier Ilbert,C. Knobel,A. Iovino,Christian Maier,Olga Cucciati,L. A. M. Tasca,C. M. Carollo,John D. Silverman,P. Kampczyk,L. de Ravel,David B. Sanders,Nick Scoville,T. Contini,Vincenzo Mainieri,Marco Scodeggio,Jean-Paul Kneib,O. Le Fevre,S. Bardelli,Angela Bongiorno,Karina Caputi,Graziano Coppa,S. de la Torre,P. Franzetti,B. Garilli,F. Lamareille,J. F. Le Borgne,V. Le Brun,M. Mignoli,E. Perez Montero,R. Pello,E. Ricciardelli,Masaomi Tanaka,L. Tresse,D. Vergani,Niraj Welikala,E. Zucca,Pascal Oesch,U. Abbas,Luke A. Barnes,Rongmon Bordoloi,D. Bottini,A. Cappi,Paolo Cassata,A. Cimatti,M. Fumana,G. Hasinger,Anton M. Koekemoer,A. Leauthaud,D. Maccagni,Christian Marinoni,H. J. McCracken,P. Memeo,B. Meneux,P. Nair,Cristiano Porciani,V. Presotto,Roberto Scaramella +63 more
TL;DR: In this paper, the authors explore the interrelationships between mass, star-formation rate and environment in the SDSS, zCOSMOS and other surveys, and show that the mass quenching of galaxies around and above M * must be proportional to their star formation rates at all z < 2.
Journal ArticleDOI
The James Webb Space Telescope
Jonathan P. Gardner,John C. Mather,Mark Clampin,René Doyon,Matthew A. Greenhouse,Heidi B. Hammel,J. B. Hutchings,Peter Viggo Jakobsen,Simon J. Lilly,Knox S. Long,Jonathan I. Lunine,Mark J. McCaughrean,Matt Mountain,John Nella,George H. Rieke,Marcia J. Rieke,Hans-Walter Rix,Eric P. Smith,George Sonneborn,Massimo Stiavelli,H. S. Stockman,Rogier A. Windhorst,Gillian S. Wright +22 more
TL;DR: The James Webb Space Telescope (JWST) as discussed by the authors is a large (6.6 m), cold (<50 K), infrared-optimized space observatory that will be launched early in the next decade into orbit around the second Earth-Sun Lagrange point.
Journal ArticleDOI
COSMOS Photometric Redshifts with 30-bands for 2-deg2
Olivier Ilbert,Peter Capak,Mara Salvato,Herve Aussel,H. J. McCracken,David B. Sanders,N. Z. Scoville,Jeyhan S. Kartaltepe,Stéphane Arnouts,E. Le Floc'h,Bahram Mobasher,Yoshiaki Taniguchi,F. Lamareille,A. Leauthaud,S. S. Sasaki,David R. Thompson,M. Zamojski,G. Zamorani,S. Bardelli,M. Bolzonella,A. Bongiorno,Marcella Brusa,Karina Caputi,C. M. Carollo,T. Contini,R. Cook,Graziano Coppa,Olga Cucciati,S. de la Torre,L. de Ravel,P. Franzetti,Bianca Garilli,Guenther Hasinger,A. Iovino,P. Kampczyk,Jean-Paul Kneib,C. Knobel,K. Kovac,J. F. Le Borgne,V. Le Brun,O. Le Fèvre,Simon J. Lilly,Dagny L. Looper,Christian Maier,Vincenzo Mainieri,Yannick Mellier,M. Mignoli,T. Murayama,R. Pello,Yingjie Peng,E. Perez-Montero,Alvio Renzini,E. Ricciardelli,David Schiminovich,Marco Scodeggio,Yasuhiro Shioya,John D. Silverman,Jason Surace,Masayuki Tanaka,Lidia Tasca,Laurence Tresse,Daniela Vergani,E. Zucca +62 more
TL;DR: In this article, a chi2 template-fitting method was used and calibrated with large spectroscopic samples from VLT-VIMOS and Keck-DEIMOS.