J. Lefaucheur
Paris Diderot University
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Publication
Featured researches published by J. Lefaucheur.
arXiv: Instrumentation and Methods for Astrophysics | 2017
J.J. Watson; A. De Franco; A. Abchiche; D. Allan; J. P. Amans; T. Armstrong; A. Balzer; D. Berge; C. Boisson; J. J. Bousquet; A. M. Brown; M. Bryan; Gilles Buchholtz; P. M. Chadwick; H. Costantini; Garret Cotter; M. K. Daniel; F. De Frondat; Jean-Laurent Dournaux; D. J. P. Dumas; J.-P. Ernenwein; G. Fasola; S. Funk; J. Gironnet; J. A. Graham; T. Greenshaw; O. Hervet; N. Hidaka; J. A. Hinton; Jean-Michel Huet
The Gamma-ray Cherenkov Telescope (GCT) is a candidate for the Small Size Telescopes (SSTs) of the Cherenkov Telescope Array (CTA). Its purpose is to extend the sensitivity of CTA to gamma-ray energies reaching 300 TeV. Its dual-mirror optical design and curved focal plane enables the use of a compact camera of 0.4 m diameter, while achieving a field of view of above 8 degrees. Through the use of the digitising TARGET ASICs, the Cherenkov flash is sampled once per nanosecond contin-uously and then digitised when triggering conditions are met within the analogue outputs of the photosensors. Entire waveforms (typically covering 96 ns) for all 2048 pixels are then stored for analysis, allowing for a broad spectrum of investigations to be performed on the data. Two prototypes of the GCT camera are under development, with differing photosensors: Multi-Anode Photomultipliers (MAPMs) and Silicon Photomultipliers (SiPMs). During November 2015, the GCT MAPM (GCT-M) prototype camera was integrated onto the GCT stru...
Proceedings of 35th International Cosmic Ray Conference — PoS(ICRC2017) | 2017
C. Deil; Dirk Lennarz; Zeljka Bosnjak; S. Pita; Rubén López Coto; Arjun Voruganti; Brigitta Sipocz; J.J. Watson; R. Terrier; J. Lefaucheur; Roberta Zanin; José Enrique Ruiz; S. Klepser; Matt A. Wood; Jean-Philippe Lenain; Lea Jouvin; Nachiketa Chakraborty; Marion Spir-Jacob; F. Acero; A. Djannati-Ataï; Cyril Trichard; Thomas Vuillaume; B. Khélifi; A. Donath; C. Boisson; M. Cerruti; Ellis Owen; L. Mohrmann; J. King
Gammapy is a Python package for high-level gamma-ray data analysis built on Numpy, Scipy and Astropy. It enables us to analyze gamma-ray data and to create sky images, spectra and lightcurves, from event lists and instrument response information, and to determine the position, morphology and spectra of gamma-ray sources. So far Gammapy has mostly been used to analyze data from H.E.S.S. and Fermi-LAT, and is now being used for the simulation and analysis of observations from the Cherenkov Telescope Array (CTA). We have proposed Gammapy as a prototype for the CTA science tools. This contribution gives an overview of the Gammapy package and project and shows an analysis application example with simulated CTA data.
arXiv: Instrumentation and Methods for Astrophysics | 2017
L. Tibaldo; A. Abchiche; D. Allan; J. P. Amans; T. Armstrong; A. Balzer; D. Berge; C. Boisson; J. J. Bousquet; A. M. Brown; M. Bryan; Gilles Buchholtz; P. M. Chadwick; H. Costantini; Garret Cotter; M. K. Daniel; A. De Franco; F. De Frondat; Jean-Laurent Dournaux; D. J. P. Dumas; J.-P. Ernenwein; G. Fasola; S. Funk; J. Gironnet; J. A. Graham; T. Greenshaw; O. Hervet; N. Hidaka; J. A. Hinton; Jean-Michel Huet
The Cherenkov Telescope Array (CTA) is a forthcoming ground-based observatory for very-high-energy gamma rays. CTA will consist of two arrays of imaging atmospheric Cherenkov telescopes in the Northern and Southern hemispheres, and will combine telescopes of different types to achieve unprecedented performance and energy coverage. The Gamma-ray Cherenkov Telescope (GCT) is one of the small-sized telescopes proposed for CTA to explore the energy range from a few TeV to hundreds of TeV with a field of view ≳ 8° and angular resolution of a few arcminutes. The GCT design features dual-mirror Schwarzschild-Couder optics and a compact camera based on densely-pixelated photodetectors as well as custom electronics. In this contribution we provide an overview of the GCT project with focus on prototype development and testing that is currently ongoing. We present results obtained during the first on-telescope campaign in late 2015 at the Observatoire de Paris-Meudon, during which we recorded the first Cherenkov ima...
Proceedings of 35th International Cosmic Ray Conference — PoS(ICRC2017) | 2017
Florian Gaté; J. Biteau; Rafael Alves Batista; J. Lefaucheur; Salvatore Mangano; Manuel Meyer; Quentin Piel; S. Pita; David Sanchez; Ievgen Vovk
The measurement of
Proceedings of 35th International Cosmic Ray Conference — PoS(ICRC2017) | 2017
T. Hassan; Alberto Domínguez; J. Lefaucheur; D. Mazin; S. Pita; Andreas Zech
\gamma
arXiv: Instrumentation and Methods for Astrophysics | 2017
C. Deil; C. Boisson; K. Kosack; Jeremy S. Perkins; J. King; P. Eger; Michael Mayer; Matt A. Wood; V. Zabalza; Jurgen Knodlseder; T. Hassan; L. Mohrmann; Alexander Ziegler; B. Khélifi; D. Dorner; Gernot Maier; G. Pedaletti; J. Rosado; J. L. Contreras; J. Lefaucheur; Kai Brügge; Mathieu Servillat; R. Terrier; Roland Walter; S. Lombardi
-rays originating from active galactic nuclei offers the unique opportunity to study the propagation of very-high-energy photons over cosmological distances. Most prominently,
arXiv: High Energy Astrophysical Phenomena | 2017
J. Lefaucheur; C. Boisson; Zeljka Bosnkak; M. Cerruti; C. Deil; Jean-Philippe Lenain; S. Pita; Andreas Zech
\gamma
arXiv: High Energy Astrophysical Phenomena | 2017
J. Lefaucheur; S. Pita
-rays interact with the extragalactic background light (EBL) to produce
arXiv: High Energy Astrophysical Phenomena | 2017
S. Pita; Paolo Goldoni; C. Boisson; Garret Cotter; J. Lefaucheur; Jean-Philippe Lenain; E. Lindfors; David A. Williams
e^+e^-
Astronomy and Astrophysics | 2017
J. Lefaucheur; S. Pita
pairs, imprinting an attenuation signature on
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