The large area telescope on the fermi gamma-ray space telescope mission

W. B. Atwood; A. A. Abdo; M. Ackermann; W. Althouse; B. Anderson; M. Axelsson; L. Baldini; J. Ballet; D. L. Band; G. Barbiellini; J. Bartelt; D. Bastieri; B. M. Baughman; K. Bechtol; D. Bédérède; F. Bellardi; R. Bellazzini; B. Berenji; G. F. Bignami; D. Bisello; E. Bissaldi; R. D. Blandford; E. D. Bloom; J. R. Bogart; E. Bonamente; J. Bonnell; A. W. Borgland; A. Bouvier; J. Bregeon; A. Brez; M. Brigida; P. Bruel; T. H. Burnett; G. Busetto; G. A. Caliandro; R. A. Cameron; P. A. Caraveo; S. Carius; P. Carlson; J. M. Casandjian; E. Cavazzuti; M. Ceccanti; C. Cecchi; E. Charles; A. Chekhtman; C. C. Cheung; J. Chiang; R. Chipaux; A. N. Cillis; S. Ciprini; R. Claus; J. Cohen-Tanugi; S. Condamoor; J. Conrad; R. Corbet; L. Corucci; L. Costamante; S. Cutini; D. S. Davis; D. Decotigny; M. Deklotz; C. D. Dermer; A. De Angelis; S. W. Digel; E. Do Couto E Silva; P. S. Drell; R. Dubois; D. Dumora; Y. Edmonds; D. Fabiani; C. Farnier; C. Favuzzi; D. L. Flath; P. Fleury; W. B. Focke; S. Funk; P. Fusco; F. Gargano; D. Gasparrini; N. Gehrels; F. X. Gentit; S. Germani; B. Giebels; N. Giglietto; P. Giommi; F. Giordano; T. Glanzman; G. Godfrey; I. A. Grenier; M. H. Grondin; J. E. Grove; L. Guillemot; S. Guiriec; G. Haller; A. K. Harding; P. A. Hart; E. Hays; S. E. Healey; M. Hirayama; L. Hjalmarsdotter; R. Horn; R. E. Hughes; G. Jóhannesson; G. Johansson; A. S. Johnson; R. P. Johnson; T. J. Johnson; W. N. Johnson; T. Kamae; H. Katagiri; J. Kataoka; A. Kavelaars; N. Kawai; H. Kelly; M. Kerr; W. Klamra; J. Knödlseder; M. L. Kocian; N. Komin; F. Kuehn; M. Kuss; D. Landriu; L. Latronico; B. Lee; S. H. Lee; M. Lemoine-Goumard; A. M. Lionetto; F. Longo; F. Loparco; B. Lott; M. N. Lovellette; P. Lubrano; G. M. Madejski; A. Makeev; B. Marangelli; M. M. Massai; M. N. Mazziotta; J. E. McEnery; N. Menon; C. Meurer; P. F. Michelson; M. Minuti; N. Mirizzi; W. Mitthumsiri; T. Mizuno; A. A. Moiseev; C. Monte; M. E. Monzani; E. Moretti; A. Morselli; I. V. Moskalenko; S. Murgia; T. Nakamori; S. Nishino; P. L. Nolan; J. P. Norris; E. Nuss; M. Ohno; T. Ohsugi; N. Omodei; E. Orlando; J. F. Ormes; A. Paccagnella; D. Paneque; J. H. Panetta; D. Parent; M. Pearce; M. Pepe; A. Perazzo; M. Pesce-Rollins; P. Picozza; L. Pieri; M. Pinchera; F. Piron; T. A. Porter; L. Poupard; S. Rainò; R. Rando; E. Rapposelli; M. Razzano; A. Reimer; O. Reimer; T. Reposeur; L. C. Reyes; S. Ritz; L. S. Rochester; A. Y. Rodriguez; R. W. Romani; M. Roth; J. J. Russell; F. Ryde; S. Sabatini; H. F.W. Sadrozinski; D. Sanchez; A. Sander; L. Sapozhnikov; P. M.Saz Parkinson; J. D. Scargle; T. L. Schalk; G. Scolieri; C. Sgrò; G. H. Share; M. Shaw; T. Shimokawabe; C. Shrader; A. Sierpowska-Bartosik; E. J. Siskind; D. A. Smith; P. D. Smith; G. Spandre; P. Spinelli; J. L. Starck; T. E. Stephens; M. S. Strickman; A. W. Strong; D. J. Suson; H. Tajima; H. Takahashi; T. Takahashi; T. Tanaka; A. Tenze; S. Tether; J. B. Thayer; J. G. Thayer; D. J. Thompson; L. Tibaldo; O. Tibolla; D. F. Torres; G. Tosti; A. Tramacere; M. Turri; T. L. Usher; N. Vilchez; V. Vitale; P. Wang; K. Watters; B. L. Winer; K. S. Wood; T. Ylinen; M. Ziegler

doi:10.1088/0004-637X/697/2/1071

The large area telescope on the fermi gamma-ray space telescope mission

W. B. Atwood
, A. A. Abdo
, M. Ackermann
, W. Althouse
, B. Anderson
, M. Axelsson
, L. Baldini
, J. Ballet
, D. L. Band
, G. Barbiellini
, J. Bartelt
, D. Bastieri
, B. M. Baughman
, K. Bechtol
, D. Bédérède
, F. Bellardi
, R. Bellazzini
, B. Berenji
, G. F. Bignami
, D. Bisello

E. Bissaldi, R. D. Blandford, E. D. Bloom, J. R. Bogart, E. Bonamente, J. Bonnell, A. W. Borgland, A. Bouvier, J. Bregeon, A. Brez, M. Brigida, P. Bruel, T. H. Burnett, G. Busetto, G. A. Caliandro, R. A. Cameron, P. A. Caraveo, S. Carius, P. Carlson, J. M. Casandjian, E. Cavazzuti, M. Ceccanti, C. Cecchi, E. Charles, A. Chekhtman, C. C. Cheung, J. Chiang, R. Chipaux, A. N. Cillis, S. Ciprini, R. Claus, J. Cohen-Tanugi, S. Condamoor, J. Conrad, R. Corbet, L. Corucci, L. Costamante, S. Cutini, D. S. Davis, D. Decotigny, M. Deklotz, C. D. Dermer, A. De Angelis, S. W. Digel, E. Do Couto E Silva, P. S. Drell, R. Dubois, D. Dumora, Y. Edmonds, D. Fabiani, C. Farnier, C. Favuzzi, D. L. Flath, P. Fleury, W. B. Focke, S. Funk, P. Fusco, F. Gargano, D. Gasparrini, N. Gehrels, F. X. Gentit, S. Germani, B. Giebels, N. Giglietto, P. Giommi, F. Giordano, T. Glanzman, G. Godfrey, I. A. Grenier, M. H. Grondin, J. E. Grove, L. Guillemot, S. Guiriec, G. Haller, A. K. Harding, P. A. Hart, E. Hays, S. E. Healey, M. Hirayama, L. Hjalmarsdotter, R. Horn, R. E. Hughes, G. Jóhannesson, G. Johansson, A. S. Johnson, R. P. Johnson, T. J. Johnson, W. N. Johnson, T. Kamae, H. Katagiri, J. Kataoka, A. Kavelaars, N. Kawai, H. Kelly, M. Kerr, W. Klamra, J. Knödlseder, M. L. Kocian, N. Komin, F. Kuehn, M. Kuss, D. Landriu, L. Latronico, B. Lee, S. H. Lee, M. Lemoine-Goumard, A. M. Lionetto, F. Longo, F. Loparco, B. Lott, M. N. Lovellette, P. Lubrano, G. M. Madejski, A. Makeev, B. Marangelli, M. M. Massai, M. N. Mazziotta, J. E. McEnery, N. Menon, C. Meurer, P. F. Michelson, M. Minuti, N. Mirizzi, W. Mitthumsiri, T. Mizuno, A. A. Moiseev, C. Monte, M. E. Monzani, E. Moretti, A. Morselli, I. V. Moskalenko, S. Murgia, T. Nakamori, S. Nishino, P. L. Nolan, J. P. Norris, E. Nuss, M. Ohno, T. Ohsugi, N. Omodei, E. Orlando, J. F. Ormes, A. Paccagnella, D. Paneque, J. H. Panetta, D. Parent, M. Pearce, M. Pepe, A. Perazzo, M. Pesce-Rollins, P. Picozza, L. Pieri, M. Pinchera, F. Piron, T. A. Porter, L. Poupard, S. Rainò, R. Rando, E. Rapposelli, M. Razzano, A. Reimer, O. Reimer, T. Reposeur, L. C. Reyes, S. Ritz, L. S. Rochester, A. Y. Rodriguez, R. W. Romani, M. Roth, J. J. Russell, F. Ryde, S. Sabatini, H. F.W. Sadrozinski, D. Sanchez, A. Sander, L. Sapozhnikov, P. M.Saz Parkinson, J. D. Scargle, T. L. Schalk, G. Scolieri, C. Sgrò, G. H. Share, M. Shaw, T. Shimokawabe, C. Shrader, A. Sierpowska-Bartosik, E. J. Siskind, D. A. Smith, P. D. Smith, G. Spandre, P. Spinelli, J. L. Starck, T. E. Stephens, M. S. Strickman, A. W. Strong, D. J. Suson, H. Tajima, H. Takahashi, T. Takahashi, T. Tanaka, A. Tenze, S. Tether, J. B. Thayer, J. G. Thayer, D. J. Thompson, L. Tibaldo, O. Tibolla, D. F. Torres, G. Tosti, A. Tramacere, M. Turri, T. L. Usher, N. Vilchez, V. Vitale, P. Wang, K. Watters, B. L. Winer, K. S. Wood, T. Ylinen, M. Ziegler

University of California at Santa Cruz
Naval Research Laboratory
National Research Council
Kavli Institute for Particle Astrophysics and Cosmology
Stockholm Observatory
Istituto Nazionale di Fisica Nucleare, Sezione di Pisa
Universite Paris-Saclay
NASA Goddard Space Flight Center
INFN Sezione di Trieste
University of Trieste
INFN
University of Padova
The Ohio State University
Scuola Universitaria Superiore IUSS di Pavia
Max Planck Institut für Extraterrestrische Physik
INFN Sezione di Perugia
University of Perugia
Politecnico di Bari
INFN Sezione di Bari
University of Washington
INAF Istituto di Astrofisica Spaziale e Fisica Cosmica, Milan
University of Kalmar
KTH Royal Institute of Technology
Science and Research Directorate
George Mason University
Institut Pierre Simon Laplace, CNRS and CEA
Laboratoire Univers et Particules de Montpellier
Stockholm University
Biochemical and Environmental Engineering
Stellar Solutions Inc.
Sezione di Roma
UMR 5797
Univ. Bordeaux
University of Maryland, College Park
Hiroshima University
Tokyo Institute of Technology
RIKEN (The Institute of Physical and Chemical Research)
CNRS
Orbital Network Engineering
INFN Roma Tor Vergata
University of Rome “Tor Vergata”
University of Denver
ISAS/JAXA
University of Chicago
Campus UAB
NASA Ames Research Center
Praxis Inc.
NYCB Real-Time Computing Inc.
Purdue University Northwest
Landessternwarte Heidelberg
Pompeu Fabra University (UPF)
Consorzio Interuniversitario per la Fisica Spaziale (CIFS)

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The Large Area Telescope (Fermi/LAT, hereafter LAT), the primary instrument on the Fermi Gamma-ray Space Telescope (Fermi) mission, is an imaging, wide field-of-view (FoV), high-energy γ-ray telescope, covering the energy range from below 20 MeV to more than 300 GeV. The LAT was built by an international collaboration with contributions from space agencies, high-energy particle physics institutes, and universities in France, Italy, Japan, Sweden, and the United States. This paper describes the LAT, its preflight expected performance, and summarizes the key science objectives that will be addressed. On-orbit performance will be presented in detail in a subsequent paper. The LAT is a pair-conversion telescope with a precision tracker and calorimeter, each consisting of a 4 × 4 array of 16 modules, a segmented anticoincidence detector that covers the tracker array, and a programmable trigger and data acquisition system. Each tracker module has a vertical stack of 18 (x, y) tracking planes, including two layers (x and y) of single-sided silicon strip detectors and high-Z converter material (tungsten) per tray. Every calorimeter module has 96 CsI(Tl) crystals, arranged in an eight-layer hodoscopic configuration with a total depth of 8.6 radiation lengths, giving both longitudinal and transverse information about the energy deposition pattern. The calorimeter's depth and segmentation enable the high-energy reach of the LAT and contribute significantly to background rejection. The aspect ratio of the tracker (height/width) is 0.4, allowing a large FoV (2.4 sr) and ensuring that most pair-conversion showers initiated in the tracker will pass into the calorimeter for energy measurement. Data obtained with the LAT are intended to (1) permit rapid notification of high-energy γ-ray bursts and transients and facilitate monitoring of variable sources, (2) yield an extensive catalog of several thousand high-energy sources obtained from an all-sky survey, (3) measure spectra from 20 MeV to more than 50 GeV for several hundred sources, (4) localize point sources to 0.3-2 arcmin, (5) map and obtain spectra of extended sources such as SNRs, molecular clouds, and nearby galaxies, (6) measure the diffuse isotropic γ-ray background up to TeV energies, and (7) explore the discovery space for dark matter.

langue originale	Anglais
Pages (de - à)	1071-1102
Nombre de pages	32
journal	Astrophysical Journal
Volume	697
Numéro de publication	2
Les DOIs	https://doi.org/10.1088/0004-637X/697/2/1071
état	Publié - 1 janv. 2009

Accès au document

10.1088/0004-637X/697/2/1071

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Contient cette citation

Atwood, W. B., Abdo, A. A., Ackermann, M., Althouse, W., Anderson, B., Axelsson, M., Baldini, L., Ballet, J., Band, D. L., Barbiellini, G., Bartelt, J., Bastieri, D., Baughman, B. M., Bechtol, K., Bédérède, D., Bellardi, F., Bellazzini, R., Berenji, B., Bignami, G. F., ... Ziegler, M. (2009). The large area telescope on the fermi gamma-ray space telescope mission. Astrophysical Journal, 697(2), 1071-1102. https://doi.org/10.1088/0004-637X/697/2/1071

@article{d8418cea71c64029861a6d111b9659c8,

title = "The large area telescope on the fermi gamma-ray space telescope mission",

abstract = "The Large Area Telescope (Fermi/LAT, hereafter LAT), the primary instrument on the Fermi Gamma-ray Space Telescope (Fermi) mission, is an imaging, wide field-of-view (FoV), high-energy γ-ray telescope, covering the energy range from below 20 MeV to more than 300 GeV. The LAT was built by an international collaboration with contributions from space agencies, high-energy particle physics institutes, and universities in France, Italy, Japan, Sweden, and the United States. This paper describes the LAT, its preflight expected performance, and summarizes the key science objectives that will be addressed. On-orbit performance will be presented in detail in a subsequent paper. The LAT is a pair-conversion telescope with a precision tracker and calorimeter, each consisting of a 4 × 4 array of 16 modules, a segmented anticoincidence detector that covers the tracker array, and a programmable trigger and data acquisition system. Each tracker module has a vertical stack of 18 (x, y) tracking planes, including two layers (x and y) of single-sided silicon strip detectors and high-Z converter material (tungsten) per tray. Every calorimeter module has 96 CsI(Tl) crystals, arranged in an eight-layer hodoscopic configuration with a total depth of 8.6 radiation lengths, giving both longitudinal and transverse information about the energy deposition pattern. The calorimeter's depth and segmentation enable the high-energy reach of the LAT and contribute significantly to background rejection. The aspect ratio of the tracker (height/width) is 0.4, allowing a large FoV (2.4 sr) and ensuring that most pair-conversion showers initiated in the tracker will pass into the calorimeter for energy measurement. Data obtained with the LAT are intended to (1) permit rapid notification of high-energy γ-ray bursts and transients and facilitate monitoring of variable sources, (2) yield an extensive catalog of several thousand high-energy sources obtained from an all-sky survey, (3) measure spectra from 20 MeV to more than 50 GeV for several hundred sources, (4) localize point sources to 0.3-2 arcmin, (5) map and obtain spectra of extended sources such as SNRs, molecular clouds, and nearby galaxies, (6) measure the diffuse isotropic γ-ray background up to TeV energies, and (7) explore the discovery space for dark matter.",

keywords = "Cosmic rays, Galaxies: active, Galaxy: general, Gamma rays: observations, Sun: X-rays, gamma rays, Telescopes",

author = "Atwood, \{W. B.\} and Abdo, \{A. A.\} and M. Ackermann and W. Althouse and B. Anderson and M. Axelsson and L. Baldini and J. Ballet and Band, \{D. L.\} and G. Barbiellini and J. Bartelt and D. Bastieri and Baughman, \{B. M.\} and K. Bechtol and D. B{\'e}d{\'e}r{\`e}de and F. Bellardi and R. Bellazzini and B. Berenji and Bignami, \{G. F.\} and D. Bisello and E. Bissaldi and Blandford, \{R. D.\} and Bloom, \{E. D.\} and Bogart, \{J. R.\} and E. Bonamente and J. Bonnell and Borgland, \{A. W.\} and A. Bouvier and J. Bregeon and A. Brez and M. Brigida and P. Bruel and Burnett, \{T. H.\} and G. Busetto and Caliandro, \{G. A.\} and Cameron, \{R. A.\} and Caraveo, \{P. A.\} and S. Carius and P. Carlson and Casandjian, \{J. M.\} and E. Cavazzuti and M. Ceccanti and C. Cecchi and E. Charles and A. Chekhtman and Cheung, \{C. C.\} and J. Chiang and R. Chipaux and Cillis, \{A. N.\} and S. Ciprini and R. Claus and J. Cohen-Tanugi and S. Condamoor and J. Conrad and R. Corbet and L. Corucci and L. Costamante and S. Cutini and Davis, \{D. S.\} and D. Decotigny and M. Deklotz and Dermer, \{C. D.\} and \{De Angelis\}, A. and Digel, \{S. W.\} and \{Do Couto E Silva\}, E. and Drell, \{P. S.\} and R. Dubois and D. Dumora and Y. Edmonds and D. Fabiani and C. Farnier and C. Favuzzi and Flath, \{D. L.\} and P. Fleury and Focke, \{W. B.\} and S. Funk and P. Fusco and F. Gargano and D. Gasparrini and N. Gehrels and Gentit, \{F. X.\} and S. Germani and B. Giebels and N. Giglietto and P. Giommi and F. Giordano and T. Glanzman and G. Godfrey and Grenier, \{I. A.\} and Grondin, \{M. H.\} and Grove, \{J. E.\} and L. Guillemot and S. Guiriec and G. Haller and Harding, \{A. K.\} and Hart, \{P. A.\} and E. Hays and Healey, \{S. E.\} and M. Hirayama and L. Hjalmarsdotter and R. Horn and Hughes, \{R. E.\} and G. J{\'o}hannesson and G. Johansson and Johnson, \{A. S.\} and Johnson, \{R. P.\} and Johnson, \{T. J.\} and Johnson, \{W. N.\} and T. Kamae and H. Katagiri and J. Kataoka and A. Kavelaars and N. Kawai and H. Kelly and M. Kerr and W. Klamra and J. Kn{\"o}dlseder and Kocian, \{M. L.\} and N. Komin and F. Kuehn and M. Kuss and D. Landriu and L. Latronico and B. Lee and Lee, \{S. H.\} and M. Lemoine-Goumard and Lionetto, \{A. M.\} and F. Longo and F. Loparco and B. Lott and Lovellette, \{M. N.\} and P. Lubrano and Madejski, \{G. M.\} and A. Makeev and B. Marangelli and Massai, \{M. M.\} and Mazziotta, \{M. N.\} and McEnery, \{J. E.\} and N. Menon and C. Meurer and Michelson, \{P. F.\} and M. Minuti and N. Mirizzi and W. Mitthumsiri and T. Mizuno and Moiseev, \{A. A.\} and C. Monte and Monzani, \{M. E.\} and E. Moretti and A. Morselli and Moskalenko, \{I. V.\} and S. Murgia and T. Nakamori and S. Nishino and Nolan, \{P. L.\} and Norris, \{J. P.\} and E. Nuss and M. Ohno and T. Ohsugi and N. Omodei and E. Orlando and Ormes, \{J. F.\} and A. Paccagnella and D. Paneque and Panetta, \{J. H.\} and D. Parent and M. Pearce and M. Pepe and A. Perazzo and M. Pesce-Rollins and P. Picozza and L. Pieri and M. Pinchera and F. Piron and Porter, \{T. A.\} and L. Poupard and S. Rain{\`o} and R. Rando and E. Rapposelli and M. Razzano and A. Reimer and O. Reimer and T. Reposeur and Reyes, \{L. C.\} and S. Ritz and Rochester, \{L. S.\} and Rodriguez, \{A. Y.\} and Romani, \{R. W.\} and M. Roth and Russell, \{J. J.\} and F. Ryde and S. Sabatini and Sadrozinski, \{H. F.W.\} and D. Sanchez and A. Sander and L. Sapozhnikov and Parkinson, \{P. M.Saz\} and Scargle, \{J. D.\} and Schalk, \{T. L.\} and G. Scolieri and C. Sgr{\`o} and Share, \{G. H.\} and M. Shaw and T. Shimokawabe and C. Shrader and A. Sierpowska-Bartosik and Siskind, \{E. J.\} and Smith, \{D. A.\} and Smith, \{P. D.\} and G. Spandre and P. Spinelli and Starck, \{J. L.\} and Stephens, \{T. E.\} and Strickman, \{M. S.\} and Strong, \{A. W.\} and Suson, \{D. J.\} and H. Tajima and H. Takahashi and T. Takahashi and T. Tanaka and A. Tenze and S. Tether and Thayer, \{J. B.\} and Thayer, \{J. G.\} and Thompson, \{D. J.\} and L. Tibaldo and O. Tibolla and Torres, \{D. F.\} and G. Tosti and A. Tramacere and M. Turri and Usher, \{T. L.\} and N. Vilchez and V. Vitale and P. Wang and K. Watters and Winer, \{B. L.\} and Wood, \{K. S.\} and T. Ylinen and M. Ziegler",

year = "2009",

month = jan,

day = "1",

doi = "10.1088/0004-637X/697/2/1071",

language = "English",

volume = "697",

pages = "1071--1102",

journal = "Astrophysical Journal",

issn = "0004-637X",

number = "2",

}

Atwood, WB, Abdo, AA, Ackermann, M, Althouse, W, Anderson, B, Axelsson, M, Baldini, L, Ballet, J, Band, DL, Barbiellini, G, Bartelt, J, Bastieri, D, Baughman, BM, Bechtol, K, Bédérède, D, Bellardi, F, Bellazzini, R, Berenji, B, Bignami, GF, Bisello, D, Bissaldi, E, Blandford, RD, Bloom, ED, Bogart, JR, Bonamente, E, Bonnell, J, Borgland, AW, Bouvier, A, Bregeon, J, Brez, A, Brigida, M, Bruel, P, Burnett, TH, Busetto, G, Caliandro, GA, Cameron, RA, Caraveo, PA, Carius, S, Carlson, P, Casandjian, JM, Cavazzuti, E, Ceccanti, M, Cecchi, C, Charles, E, Chekhtman, A, Cheung, CC, Chiang, J, Chipaux, R, Cillis, AN, Ciprini, S, Claus, R, Cohen-Tanugi, J, Condamoor, S, Conrad, J, Corbet, R, Corucci, L, Costamante, L, Cutini, S, Davis, DS, Decotigny, D, Deklotz, M, Dermer, CD, De Angelis, A, Digel, SW, Do Couto E Silva, E, Drell, PS, Dubois, R, Dumora, D, Edmonds, Y, Fabiani, D, Farnier, C, Favuzzi, C, Flath, DL, Fleury, P, Focke, WB, Funk, S, Fusco, P, Gargano, F, Gasparrini, D, Gehrels, N, Gentit, FX, Germani, S, Giebels, B, Giglietto, N, Giommi, P, Giordano, F, Glanzman, T, Godfrey, G, Grenier, IA, Grondin, MH, Grove, JE, Guillemot, L, Guiriec, S, Haller, G, Harding, AK, Hart, PA, Hays, E, Healey, SE, Hirayama, M, Hjalmarsdotter, L, Horn, R, Hughes, RE, Jóhannesson, G, Johansson, G, Johnson, AS, Johnson, RP, Johnson, TJ, Johnson, WN, Kamae, T, Katagiri, H, Kataoka, J, Kavelaars, A, Kawai, N, Kelly, H, Kerr, M, Klamra, W, Knödlseder, J, Kocian, ML, Komin, N, Kuehn, F, Kuss, M, Landriu, D, Latronico, L, Lee, B, Lee, SH, Lemoine-Goumard, M, Lionetto, AM, Longo, F, Loparco, F, Lott, B, Lovellette, MN, Lubrano, P, Madejski, GM, Makeev, A, Marangelli, B, Massai, MM, Mazziotta, MN, McEnery, JE, Menon, N, Meurer, C, Michelson, PF, Minuti, M, Mirizzi, N, Mitthumsiri, W, Mizuno, T, Moiseev, AA, Monte, C, Monzani, ME, Moretti, E, Morselli, A, Moskalenko, IV, Murgia, S, Nakamori, T, Nishino, S, Nolan, PL, Norris, JP, Nuss, E, Ohno, M, Ohsugi, T, Omodei, N, Orlando, E, Ormes, JF, Paccagnella, A, Paneque, D, Panetta, JH, Parent, D, Pearce, M, Pepe, M, Perazzo, A, Pesce-Rollins, M, Picozza, P, Pieri, L, Pinchera, M, Piron, F, Porter, TA, Poupard, L, Rainò, S, Rando, R, Rapposelli, E, Razzano, M, Reimer, A, Reimer, O, Reposeur, T, Reyes, LC, Ritz, S, Rochester, LS, Rodriguez, AY, Romani, RW, Roth, M, Russell, JJ, Ryde, F, Sabatini, S, Sadrozinski, HFW, Sanchez, D, Sander, A, Sapozhnikov, L, Parkinson, PMS, Scargle, JD, Schalk, TL, Scolieri, G, Sgrò, C, Share, GH, Shaw, M, Shimokawabe, T, Shrader, C, Sierpowska-Bartosik, A, Siskind, EJ, Smith, DA, Smith, PD, Spandre, G, Spinelli, P, Starck, JL, Stephens, TE, Strickman, MS, Strong, AW, Suson, DJ, Tajima, H, Takahashi, H, Takahashi, T, Tanaka, T, Tenze, A, Tether, S, Thayer, JB, Thayer, JG, Thompson, DJ, Tibaldo, L, Tibolla, O, Torres, DF, Tosti, G, Tramacere, A, Turri, M, Usher, TL, Vilchez, N, Vitale, V, Wang, P, Watters, K, Winer, BL, Wood, KS, Ylinen, T & Ziegler, M 2009, 'The large area telescope on the fermi gamma-ray space telescope mission', Astrophysical Journal, VOL. 697, Numéro 2, p. 1071-1102. https://doi.org/10.1088/0004-637X/697/2/1071

TY - JOUR

T1 - The large area telescope on the fermi gamma-ray space telescope mission

AU - Atwood, W. B.

AU - Abdo, A. A.

AU - Ackermann, M.

AU - Althouse, W.

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PY - 2009/1/1

Y1 - 2009/1/1

N2 - The Large Area Telescope (Fermi/LAT, hereafter LAT), the primary instrument on the Fermi Gamma-ray Space Telescope (Fermi) mission, is an imaging, wide field-of-view (FoV), high-energy γ-ray telescope, covering the energy range from below 20 MeV to more than 300 GeV. The LAT was built by an international collaboration with contributions from space agencies, high-energy particle physics institutes, and universities in France, Italy, Japan, Sweden, and the United States. This paper describes the LAT, its preflight expected performance, and summarizes the key science objectives that will be addressed. On-orbit performance will be presented in detail in a subsequent paper. The LAT is a pair-conversion telescope with a precision tracker and calorimeter, each consisting of a 4 × 4 array of 16 modules, a segmented anticoincidence detector that covers the tracker array, and a programmable trigger and data acquisition system. Each tracker module has a vertical stack of 18 (x, y) tracking planes, including two layers (x and y) of single-sided silicon strip detectors and high-Z converter material (tungsten) per tray. Every calorimeter module has 96 CsI(Tl) crystals, arranged in an eight-layer hodoscopic configuration with a total depth of 8.6 radiation lengths, giving both longitudinal and transverse information about the energy deposition pattern. The calorimeter's depth and segmentation enable the high-energy reach of the LAT and contribute significantly to background rejection. The aspect ratio of the tracker (height/width) is 0.4, allowing a large FoV (2.4 sr) and ensuring that most pair-conversion showers initiated in the tracker will pass into the calorimeter for energy measurement. Data obtained with the LAT are intended to (1) permit rapid notification of high-energy γ-ray bursts and transients and facilitate monitoring of variable sources, (2) yield an extensive catalog of several thousand high-energy sources obtained from an all-sky survey, (3) measure spectra from 20 MeV to more than 50 GeV for several hundred sources, (4) localize point sources to 0.3-2 arcmin, (5) map and obtain spectra of extended sources such as SNRs, molecular clouds, and nearby galaxies, (6) measure the diffuse isotropic γ-ray background up to TeV energies, and (7) explore the discovery space for dark matter.

AB - The Large Area Telescope (Fermi/LAT, hereafter LAT), the primary instrument on the Fermi Gamma-ray Space Telescope (Fermi) mission, is an imaging, wide field-of-view (FoV), high-energy γ-ray telescope, covering the energy range from below 20 MeV to more than 300 GeV. The LAT was built by an international collaboration with contributions from space agencies, high-energy particle physics institutes, and universities in France, Italy, Japan, Sweden, and the United States. This paper describes the LAT, its preflight expected performance, and summarizes the key science objectives that will be addressed. On-orbit performance will be presented in detail in a subsequent paper. The LAT is a pair-conversion telescope with a precision tracker and calorimeter, each consisting of a 4 × 4 array of 16 modules, a segmented anticoincidence detector that covers the tracker array, and a programmable trigger and data acquisition system. Each tracker module has a vertical stack of 18 (x, y) tracking planes, including two layers (x and y) of single-sided silicon strip detectors and high-Z converter material (tungsten) per tray. Every calorimeter module has 96 CsI(Tl) crystals, arranged in an eight-layer hodoscopic configuration with a total depth of 8.6 radiation lengths, giving both longitudinal and transverse information about the energy deposition pattern. The calorimeter's depth and segmentation enable the high-energy reach of the LAT and contribute significantly to background rejection. The aspect ratio of the tracker (height/width) is 0.4, allowing a large FoV (2.4 sr) and ensuring that most pair-conversion showers initiated in the tracker will pass into the calorimeter for energy measurement. Data obtained with the LAT are intended to (1) permit rapid notification of high-energy γ-ray bursts and transients and facilitate monitoring of variable sources, (2) yield an extensive catalog of several thousand high-energy sources obtained from an all-sky survey, (3) measure spectra from 20 MeV to more than 50 GeV for several hundred sources, (4) localize point sources to 0.3-2 arcmin, (5) map and obtain spectra of extended sources such as SNRs, molecular clouds, and nearby galaxies, (6) measure the diffuse isotropic γ-ray background up to TeV energies, and (7) explore the discovery space for dark matter.

KW - Cosmic rays

KW - Galaxies: active

KW - Galaxy: general

KW - Gamma rays: observations

KW - Sun: X-rays, gamma rays

KW - Telescopes

UR - https://www.scopus.com/pages/publications/66649126398

U2 - 10.1088/0004-637X/697/2/1071

DO - 10.1088/0004-637X/697/2/1071

M3 - Article

AN - SCOPUS:66649126398

SN - 0004-637X

VL - 697

SP - 1071

EP - 1102

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

ER -

The large area telescope on the fermi gamma-ray space telescope mission

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