Laser monitoring system for the CMS lead tungstate crystal calorimeter

被引:50
作者
Anfreville, M. [2 ]
Bailleux, D. [3 ]
Bard, J. P. [2 ]
Bornheim, A. [3 ]
Bouchand, C. [2 ]
Bougamont, E. [2 ]
Boyer, M. [2 ]
Chipaux, R. [2 ]
Daponte-Puill, V. [1 ]
Dejardin, M. [1 ]
Faure, J. L. [1 ]
Gras, P. [1 ]
Jarry, P. [1 ]
Jeanney, C. [2 ]
Joudon, A. [2 ]
Pansart, J. P.
Penichot, Y. [2 ]
Rander, J.
Rolquin, J. [2 ]
Reymond, J. M. [2 ]
Tartas, J. [2 ]
Venault, P. [2 ]
Verrecchia, P. [1 ]
Zhang, L. [3 ]
Zhu, K. [3 ]
Zhu, R. Y. [3 ]
机构
[1] CE Saclay, DAPNIA, CEA, F-91191 Gif Sur Yvette, France
[2] CE Saclay, SEDI, DAPNIA, CEA, F-91191 Gif Sur Yvette, France
[3] CALTECH, Pasadena, CA 91125 USA
来源
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT | 2008年 / 594卷 / 02期
关键词
laser; monitoring system; optical transmittance; stability; calorimeter; scintillating crystal;
D O I
10.1016/j.nima.2008.01.104
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
We report on the multiple wavelength laser monitoring system designed for the compact muon solenoid (CMS) lead tungstate crystal calorimeter. Results are presented for the test-beam performance of the system designed to achieve < 0.2% relative optical transmittance inter-calibration for 75 848 lead tungstate crystals. The system cycles continuously over the calorimeter to follow each crystal's evolution under the irradiation and recovery periods foreseen during operation at the LHC. (C) 2008 Elsevier B.V. All rights reserved.
引用
收藏
页码:292 / 320
页数:29
相关论文
共 23 条
[1]   THE CONSTRUCTION OF THE L3 EXPERIMENT [J].
ADEVA, B ;
AGUILARBENITEZ, M ;
AKBARI, H ;
ALCARAZ, J ;
ALOISIO, A ;
ALVAREZTAVIEL, J ;
ALVERSON, G ;
ALVIGGI, MG ;
ANDERHUB, H ;
ANDERSON, AL ;
ANGELOV, AM ;
ANGELOV, TH ;
ANTCHEV, GH ;
ANTONOV, L ;
ANTREASYAN, D ;
AREFIEV, A ;
ATANASOV, IH ;
AUROY, B ;
AYAD, R ;
AYRANOV, OL ;
AZEMOON, T ;
AZIZ, T ;
BACHMANN, U ;
BAHLER, P ;
BAKKEN, JA ;
BAKSAY, L ;
BALDINGER, H ;
BALL, RC ;
BALLANSAT, J ;
BANERJEE, S ;
BAO, J ;
BARBIER, G ;
BARONE, L ;
BASTI, G ;
BAY, A ;
BEAUVAIS, F ;
BECKER, U ;
BEISSEL, R ;
BENDIG, S ;
BENE, P ;
BERDUGO, J ;
BERGES, P ;
BERTHET, M ;
BERTSCH, Y ;
BETEV, BL ;
BILAND, A ;
BISCHOFF, A ;
BISCHOPS, M ;
BIZZARRI, R ;
BLAISING, JJ .
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 1990, 289 (1-2) :35-102
[2]   Results of the first performance tests of the CMS electromagnetic calorimeter [J].
Adzic, P. ;
Alemany-Fernandez, R. ;
Almeida, C. B. ;
Almeida, N. M. ;
Anagnostou, G. ;
Anfreville, M. G. ;
Anicin, I. ;
Antunovic, Z. ;
Asimidis, A. ;
Auffray, E. ;
Baccaro, S. ;
Barney, D. ;
Barone, L. M. ;
Barrillon, P. ;
Bartoloni, A. ;
Beauceron, S. ;
Beaudette, F. ;
Bell, K. W. ;
Benetta, R. ;
Bercher, M. J. ;
Betev, B. ;
Beuselinck, R. ;
Bhardwaj, A. ;
Biino, C. ;
Bimbot, S. ;
Bloch, P. ;
Blyth, S. ;
Bonesini, M. ;
Bordalo, P. ;
Bornheim, A. ;
Bourotte, J. M. ;
Britton, D. ;
Brown, R. M. ;
Bruneliere, R. ;
Busson, P. ;
Camporesi, T. ;
Cartiglia, N. ;
Cavallari, F. ;
Chamont, D. ;
Chang, P. ;
Chang, Y. H. ;
Charlot, C. ;
Chen, E. A. ;
Chipaux, R. ;
Cockerill, D. J. ;
Collard, C. ;
Combaret, C. ;
Costantini, S. ;
Da Silva, J. C. ;
Dafinei, I. .
EUROPEAN PHYSICAL JOURNAL C, 2006, 44 (Suppl 2) :1-10
[3]  
AKCHURIN N, 1998056 CMS
[4]  
Annenkov AN, 2002, PHYS STATUS SOLIDI A, V191, P277, DOI 10.1002/1521-396X(200205)191:1<277::AID-PSSA277>3.0.CO
[5]  
2-7
[6]   The BABAR detector [J].
Aubert, B ;
Bazan, A ;
Boucham, A ;
Boutigny, D ;
De Bonis, I ;
Favier, J ;
Gaillard, JM ;
Jeremie, A ;
Karyotakis, Y ;
Le Flour, T ;
Lees, JP ;
Lieunard, S ;
Petitpas, P ;
Robbe, P ;
Tisserand, V ;
Zachariadou, K ;
Palano, A ;
Chen, GP ;
Chen, JC ;
Qi, ND ;
Rong, G ;
Wang, P ;
Zhu, YS ;
Eigen, G ;
Reinertsen, PL ;
Stugu, B ;
Abbott, B ;
Abrams, GS ;
Amerman, L ;
Borgland, AW ;
Breon, AB ;
Brown, DN ;
Button-Shafer, J ;
Clark, AR ;
Dardin, S ;
Day, C ;
Dow, SF ;
Fan, Q ;
Gaponenko, I ;
Gill, MS ;
Goozen, FR ;
Gowdy, SJ ;
Gritsan, A ;
Groysman, Y ;
Hernikl, C ;
Jacobsen, RG ;
Jared, RC ;
Kadel, RW ;
Kadyk, J ;
Karcher, A .
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2002, 479 (01) :1-116
[7]   Beam tests of lead tungstate crystal matrices and a silicon strip preshower detector for the CMS electromagnetic calorimeter [J].
Auffray, E ;
Baillon, P ;
Barney, D ;
Bassompierre, G ;
Benhammou, Y ;
Blick, A ;
Bloch, P ;
Bonamy, P ;
Bourotte, J ;
Buiron, L ;
Cavallari, F ;
Chipaux, R ;
Cockerill, D ;
Dafinei, I ;
Davies, G ;
Depasse, P ;
Deiters, K ;
Diemoz, M ;
Dobrzynski, L ;
Donskov, S ;
El Mamouni, H ;
Ercoli, C ;
Faure, JL ;
Felcini, M ;
Gautheron, F ;
Geleoc, M ;
Givernaud, A ;
Gninenko, S ;
Godinovic, N ;
Graham, DJ ;
Guillaud, JP ;
Guschin, E ;
Haguenauer, M ;
Hillemanns, H ;
Hofer, H ;
Ille, B ;
Inyakin, A ;
Jaaskelainen, S ;
Katchanov, V ;
Kirn, T ;
Kloukinas, K ;
Korzhik, M ;
Lassila-Perini, K ;
Lebrun, P ;
Lecoq, P ;
Lecoeur, G ;
Lecomte, P ;
Leonardi, E ;
Locci, E ;
Loos, R .
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 1998, 412 (2-3) :223-237
[8]  
AZDIC P, 2007, J INSTR, V2
[9]   LED monitoring system for the BTeV lead tungstate crystal calorimeter prototype [J].
Batarin, V ;
Butter, J ;
Chen, T ;
Davidenko, AM ;
Derevschikov, AA ;
Goncharenko, Y ;
Grishin, V ;
Kachanov, V ;
Konstantinov, AS ;
Kravtsov, V ;
Kormilitsin, V ;
Kubota, Y ;
Matulenko, Y ;
Medvedev, V ;
Melnick, Y ;
Meschanin, AP ;
Mikhalin, NE ;
Minaev, NG ;
Mochalov, V ;
Morozov, DA ;
Nogach, L ;
Ryazantsev, AV ;
Semenov, P ;
Semenov, V ;
Shestermanov, KE ;
Soloviev, LF ;
Stone, S ;
Uzunian, AV ;
Vasiliev, AN ;
Yakutin, AE ;
Yarba, J .
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2004, 534 (03) :486-495
[10]  
BRETON D, 2004, CERN 2004 010
123