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  1. AU="Linssen, L"
  2. AU="Davide, Borroni"
  3. AU="Ingrid M. Wentzensen"
  4. AU="A.Parida, "
  5. AU="Zhu, D H"
  6. AU=Ulloa Luis
  7. AU="Böhme, Elisa"
  8. AU=Trko?lu Oya
  9. AU="Levine, Zoe"
  10. AU="Banaszkiewicz, Paul A."
  11. AU="Datrier, Laurence E. H."
  12. AU=Fala Loretta
  13. AU="McGuckin, M M"
  14. AU="Winlaw, David S"
  15. AU="Gökmen, M Refik"
  16. AU="Islam, Tousif"
  17. AU="Szczepanczyk, Marek J"
  18. AU="Boregowda, Siddaraju"
  19. AU="Lomidzew, D."

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  1. Artikel ; Online: The effects of mass, bulk and stiffness of personal protective equipment and clothing on physical performance when performing a military mobility obstacle course.

    Gijsbertse, Kaj / Linssen, Lotte / Woering, Arend / Catoire, Milène

    Applied ergonomics

    2021  Band 95, Seite(n) 103448

    Abstract: Background: Soldiers are required to conduct tasks and operations in physically demanding situations, where the ability to move (mobility) quickly is important to lethality and survivability. This study employed a specially designed suit to try to ... ...

    Abstract Background: Soldiers are required to conduct tasks and operations in physically demanding situations, where the ability to move (mobility) quickly is important to lethality and survivability. This study employed a specially designed suit to try to isolate the main mass property characteristics of personal protective clothing/equipment (PPCE) including mass, bulk and stiffness as much as possible and evaluated their effects on soldier performance across operationally-relevant mobility tasks.
    Method: Eight male military subjects performed the load effects assessment program (LEAP) obstacle course while wearing 7 different configurations of specifically designed suit: unencumbered (control), 10 kg mass, 30 kg mass, 20 L bulk, medium stiffness, high stiffness and a mixed configuration consisting of 10 kg mass, 20 L bulk and medium stiffness. The primary outcome measure was total LEAP completion time. Additionally, heart rate, rating of perceived exertion (RPE), range of motion and vertical jump heights were measured and related to LEAP performance.
    Results: All configurations degraded or tended to degrade the total LEAP completion times (p-value < 0.05), except for the medium stiffness configuration. Heart rate did not differ significantly between configurations, while RPE scores of configurations 30 kg and mix were significantly higher compared to control (p < 0.01).
    Conclusion: Mass, bulk and stiffness all negatively influence LEAP obstacle performance. Therefore, all three have to be considered when trying to reduce the physical burden on soldiers.
    Mesh-Begriff(e) Heart Rate ; Humans ; Male ; Military Personnel ; Personal Protective Equipment ; Physical Functional Performance ; Protective Clothing
    Sprache Englisch
    Erscheinungsdatum 2021-04-27
    Erscheinungsland England
    Dokumenttyp Journal Article
    ZDB-ID 2003513-5
    ISSN 1872-9126 ; 0003-6870
    ISSN (online) 1872-9126
    ISSN 0003-6870
    DOI 10.1016/j.apergo.2021.103448
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  2. Buch ; Online: Physics and Detectors at CLIC

    Linssen, Lucie / Miyamoto, Akiya / Stanitzki, Marcel / Weerts, Harry

    CLIC Conceptual Design Report

    2012  

    Abstract: This report describes the physics potential and experiments at a future multi-TeV e+e- collider based on the Compact Linear Collider (CLIC) technology. The physics scenarios considered include precision measurements of known quantities as well as the ... ...

    Abstract This report describes the physics potential and experiments at a future multi-TeV e+e- collider based on the Compact Linear Collider (CLIC) technology. The physics scenarios considered include precision measurements of known quantities as well as the discovery potential of physics beyond the Standard Model. The report describes the detector performance required at CLIC, taking into account the interaction point environment and especially beaminduced backgrounds. Two detector concepts, designed around highly granular calorimeters and based on concepts studied for the International Linear Collider (ILC), are described and used to study the physics reach and potential of such a collider. Detector subsystems and the principal engineering challenges are illustrated. The overall performance of these CLIC detector concepts is demonstrated by studies of the performance of individual subdetector systems as well as complete simulation studies of six benchmark physics processes. These full detector simulation and reconstruction studies include beaminduced backgrounds and physics background processes. After optimisation of the detector concepts and adopting the reconstruction algorithms the results show very efficient background rejection and clearly demonstrate the physics potential at CLIC in terms of precision mass and cross section measurements. Finally, an overview of future plans of the CLIC detector and physics study is given and a list of key detector R&D topics needed for detectors at CLIC is presented.

    Comment: 257 p, published as CERN Yellow Report CERN-2012-003
    Schlagwörter Physics - Instrumentation and Detectors
    Thema/Rubrik (Code) 621
    Erscheinungsdatum 2012-02-27
    Erscheinungsland us
    Dokumenttyp Buch ; Online
    Datenquelle BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

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  3. Artikel: Higgs physics at the CLIC electron-positron linear collider.

    Abramowicz, H / Abusleme, A / Afanaciev, K / Alipour Tehrani, N / Balázs, C / Benhammou, Y / Benoit, M / Bilki, B / Blaising, J-J / Boland, M J / Boronat, M / Borysov, O / Božović-Jelisavčić, I / Buckland, M / Bugiel, S / Burrows, P N / Charles, T K / Daniluk, W / Dannheim, D /
    Dasgupta, R / Demarteau, M / Díaz Gutierrez, M A / Eigen, G / Elsener, K / Felzmann, U / Firlej, M / Firu, E / Fiutowski, T / Fuster, J / Gabriel, M / Gaede, F / García, I / Ghenescu, V / Goldstein, J / Green, S / Grefe, C / Hauschild, M / Hawkes, C / Hynds, D / Idzik, M / Kačarević, G / Kalinowski, J / Kananov, S / Klempt, W / Kopec, M / Krawczyk, M / Krupa, B / Kucharczyk, M / Kulis, S / Laštovička, T / Lesiak, T / Levy, A / Levy, I / Linssen, L / Lukić, S / Maier, A A / Makarenko, V / Marshall, J S / Martin, V J / Mei, K / Milutinović-Dumbelović, G / Moroń, J / Moszczyński, A / Moya, D / Münker, R M / Münnich, A / Neagu, A T / Nikiforou, N / Nikolopoulos, K / Nürnberg, A / Pandurović, M / Pawlik, B / Perez Codina, E / Peric, I / Petric, M / Pitters, F / Poss, S G / Preda, T / Protopopescu, D / Rassool, R / Redford, S / Repond, J / Robson, A / Roloff, P / Ros, E / Rosenblat, O / Ruiz-Jimeno, A / Sailer, A / Schlatter, D / Schulte, D / Shumeiko, N / Sicking, E / Simon, F / Simoniello, R / Sopicki, P / Stapnes, S / Ström, R / Strube, J / Świentek, K P / Szalay, M / Tesař, M / Thomson, M A / Trenado, J / Uggerhøj, U I / van der Kolk, N / van der Kraaij, E / Vicente Barreto Pinto, M / Vila, I / Vogel Gonzalez, M / Vos, M / Vossebeld, J / Watson, M / Watson, N / Weber, M A / Weerts, H / Wells, J D / Weuste, L / Winter, A / Wojtoń, T / Xia, L / Xu, B / Żarnecki, A F / Zawiejski, L / Zgura, I-S

    The European physical journal. C, Particles and fields

    2017  Band 77, Heft 7, Seite(n) 475

    Abstract: The Compact Linear Collider (CLIC) is an option for a future [Formula: see text] collider operating at centre-of-mass energies up to [Formula: see text], providing sensitivity to a wide range of new physics phenomena and precision physics measurements at ...

    Abstract The Compact Linear Collider (CLIC) is an option for a future [Formula: see text] collider operating at centre-of-mass energies up to [Formula: see text], providing sensitivity to a wide range of new physics phenomena and precision physics measurements at the energy frontier. This paper is the first comprehensive presentation of the Higgs physics reach of CLIC operating at three energy stages: [Formula: see text], 1.4 and [Formula: see text]. The initial stage of operation allows the study of Higgs boson production in Higgsstrahlung ([Formula: see text]) and [Formula: see text]-fusion ([Formula: see text]), resulting in precise measurements of the production cross sections, the Higgs total decay width [Formula: see text], and model-independent determinations of the Higgs couplings. Operation at [Formula: see text] provides high-statistics samples of Higgs bosons produced through [Formula: see text]-fusion, enabling tight constraints on the Higgs boson couplings. Studies of the rarer processes [Formula: see text] and [Formula: see text] allow measurements of the top Yukawa coupling and the Higgs boson self-coupling. This paper presents detailed studies of the precision achievable with Higgs measurements at CLIC and describes the interpretation of these measurements in a global fit.
    Sprache Englisch
    Erscheinungsdatum 2017-07-17
    Erscheinungsland France
    Dokumenttyp Journal Article
    ZDB-ID 1459069-4
    ISSN 1434-6052 ; 1434-6044
    ISSN (online) 1434-6052
    ISSN 1434-6044
    DOI 10.1140/epjc/s10052-017-4968-5
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  4. Buch ; Online: Performance of the CMS High Granularity Calorimeter prototype to charged pion beams of 20$-$300 GeV/c

    Acar, B. / Adamov, G. / Adloff, C. / Afanasiev, S. / Akchurin, N. / Akgün, B. / Alhusseini, M. / Alison, J. / de Almeida, J. P. Figueiredo de sa Sousa / de Almeida, P. G. Dias / Alpana, A. / Alyari, M. / Andreev, I. / Aras, U. / Aspell, P. / Atakisi, I. O. / Bach, O. / Baden, A. / Bakas, G. /
    Bakshi, A. / Banerjee, S. / DeBarbaro, P. / Bargassa, P. / Barney, D. / Beaudette, F. / Beaujean, F. / Becheva, E. / Becker, A. / Behera, P. / Belloni, A. / Bergauer, T. / Berni, M. El / Besancon, M. / Bhattacharya, S. / Bhowmik, D. / Bilki, B. / Bilokin, S. / Blazey, G. C. / Blekman, F. / Bloch, P. / Bodek, A. / Bonanomi, M. / Bonis, J. / Bonnemaison, A. / Bonomally, S. / Borg, J. / Bouyjou, F. / Bower, N. / Braga, D. / Brennan, L. / Brianne, E. / Brondolin, E. / Bryant, P. / Buhmann, E. / Buhmann, P. / Butler-Nalin, A. / Bychkova, O. / Callier, S. / Calvet, D. / Canderan, K. / Cankocak, K. / Cao, X. / Cappati, A. / Caraway, B. / Caregari, S. / Carty, C. / Cauchois, A. / Ceard, L. / Cerci, D. S. / Cerci, S. / Cerminara, G. / Chadeeva, M. / Charitonidis, N. / Chatterjee, R. / Chen, J. A. / Chen, Y. M. / Cheng, H. J. / Cheng, K. Y. / Cheung, H. / Chokheli, D. / Cipriani, M. / Čoko, D. / Couderc, F. / Cuba, E. / Danilov, M. / Dannheim, D. / Daoud, W. / Das, I. / Dauncey, P. / Davies, G. / Davignon, O. / Day, E. / Debbins, P. / Defranchis, M. M. / Delagnes, E. / Demiragli, Z. / Demirbas, U. / Derylo, G. / Diaz, D. / Diehl, L. / Dinaucourt, P. / Dincer, G. G. / Dittmann, J. / Dragicevic, M. / Dugad, S. / Dulucq, F. / Dumanoglu, I. / Dünser, M. / Dutta, S. / Dutta, V. / Edberg, T. K. / Elias, F. / Emberger, L. / Eno, S. C. / Ershov, Yu. / Extier, S. / Fahim, F. / Fallon, C. / Fard, K. Sarbandi / Fedi, G. / Ferragina, L. / Forthomme, L. / Frahm, E. / Franzoni, G. / Freeman, J. / French, T. / Gadow, K. / Gandhi, P. / Ganjour, S. / Gao, X. / Garcia, M. T. Ramos / Garcia-Bellido, A. / Garutti, E. / Gastaldi, F. / Gastler, D. / Gecse, Z. / Germer, A. / Gerwig, H. / Gevin, O. / Ghosh, S. / Gilbert, A. / Gilbert, W. / Gill, K. / Gingu, C. / Gninenko, S. / Golunov, A. / Golutvin, I. / Gonultas, B. / Gorbounov, N. / Göttlicher, P. / Gouskos, L. / Graf, C. / Gray, A. B. / Grieco, C. / Gr\"önroos, S. / Gu, Y. / Guilloux, F. / Guler, E. Gurpinar / Guler, Y. / Gülmez, E. / Guo, J. / Gutti, H. / Hakimi, A. / Hammer, M. / Hartbrich, O. / Hassanshahi, H. M. / Hatakeyama, K. / Hazen, E. / Heering, A. / Hegde, V. / Heintz, U. / Heuchel, D. / Hinton, N. / Hirschauer, J. / Hoff, J. / Hou, W. S. / Hou, X. / Hua, H. / Huck, S. / Hussain, A. / Incandela, J. / Irles, A. / Irshad, A. / Isik, C. / Jain, S. / Jaroslavceva, J. / Jheng, H. R. / Joshi, U. / Kaadze, K. / Kachanov, V. / Kalipoliti, L. / Kaminskiy, A. / Kanuganti, A. R. / Kao, Y. W. / Kapoor, A. / Kara, O. / Karneyeu, A. / Kałuzińska, O. / Kaya, M. / Kaya, O. / Kazhykharim, Y. / Khan, F. A. / Khukhunaishvili, A. / Kieseler, J. / Kilpatrick, M. / Kim, S. / Koetz, K. / Kolberg, T. / Komm, M. / Köseyan, O. K. / Kraus, V. / Krawczyk, M. / Kristiansen, K. / Kristić, A. / Krohn, M. / Kronheim, B. / Krüger, K. / Kulis, S. / Kumar, M. / Kunori, S. / Kuo, C. M. / Kuryatkov, V. / Kvasnicka, J. / Kyre, S. / Lai, Y. / Lamichhane, K. / Landsberg, G. / Lange, C. / Langford, J. / Laurien, S. / Lee, M. Y. / Lee, S. W. / Leiton, A. G. Stahl / Levin, A. / Li, A. / Li, J. H. / Li, Y. Y. / Liang, Z. / Liao, H. / Lin, Z. / Lincoln, D. / Linssen, L. / Lipton, R. / Liu, G. / Liu, Y. / Lobanov, A. / Lohezic, V. / Lomidze, D. / Lu, R. S. / Lu, S. / Lupi, M. / Lysova, I. / Magnan, A. -M. / Magniette, F. / Mahjoub, A. / Martens, S. / Matysek, M. / Meier, B. / Malakhov, A. / Mallios, S. / Mandjavize, I. / Mannelli, M. / Mans, J. / Marchioro, A. / Martelli, A. / Martinez, G. / Masterson, P. / Matthewman, M. / Mayekar, S. N. / David, A. / Coco, S. / Meng, B. / Menkel, A . / Mestvirishvili, A. / Milella, G. / Mirza, I. / Moccia, S. / Mohanty, G. B. / Monti, F. / Moortgat, F. W. / Morrissey, I. / Motta, J. / Murthy, S. / Musić, J. / Musienko, Y. / Nabili, S. / Nguyen, M. / Nikitenko, A. / Noonan, D. / Noy, M. / Nurdan, K. / Nursanto, M. Wulansatiti / Ochando, C. / Odell, N. / Okawa, H. / Onel, Y. / Ortez, W. / Ozegović, J. / Ozkorucuklu, S. / Paganis, E. / Palmer, C. A. / Pandey, S. / Pantaleo, F. / Papageorgakis, C. / Papakrivopoulos, I. / Paranjpe, M. / Parshook, J. / Pastika, N. / Paulini, M. / Peitzmann, T. / Peltola, T. / Peng, N. / Perraguin, A. Buchot / Petiot, P. / Pierre-Emile, T. / Pinto, M. Vicente Barreto / Popova, E. / Pöschl, R. / Prosper, H. / Prvan, M. / Puljak, I. / Qasim, S. R. / Qu, H. / Quast, T. / Quinn, R. / Quinnan, M. / Rane, A. / Rao, K. K. / Rapacz, K. / Raux, L. / Redjeb, W. / Reinecke, M. / Revering, M. / Richard, F. / Roberts, A. / Sanchez, A. M. / Rohlf, J. / Rolph, J. / Romanteau, T. / Rosado, M. / Rose, A. / Rovere, M. / Roy, A. / Rubinov, P. / Rusack, R. / Rusinov, V. / Ryjov, V. / Sahin, O. M. / Salerno, R. / Saradhy, R. / Sarkar, T. / Sarkisla, M. A. / Sauvan, J. B. / Schmidt, I. / Schmitt, M. / Schuwalow, S. / Scott, E. / Seez, C. / Sefkow, F. / Selivanova, D. / Sharma, S. / Shelake, M. / Shenai, A. / Shukla, R. / Sicking, E. / De, M. / Silva, P. / Simkina, P. / Simon, F. / Simsek, A. E. / Sirois, Y. / Smirnov, V. / Sobering, T. J. / Spencer, E. / Srimanobhas, N. / Steen, A. / Strait, J. / Strobbe, N. / Su, X. F. / Sudo, Y. / Suarez, C. Mantilla / Sukhov, E. / Sulak, L. / Sun, L. / Suryadevara, P. / Syal, C. / de La Taille, C. / Tali, B. / Tan, C. L. / Tao, J. / Tarabini, A. / Tatli, T. / Thaus, R. / Taylor, R. D. / Tekten, S. / Thiebault, A. / Thienpont, D. / Tiley, C. / Tiras, E. / Titov, M. / Tlisov, D. / Tok, U. G. / Kayis, A. / Troska, J. / Tsai, L. S. / Tsamalaidze, Z. / Tsipolitis, G. / Tsirou, A. / Undleeb, S. / Urbanski, D. / Uslan, E. / Ustinov, V. / Uzunian, A. / Varela, J. / Velasco, M. / Vernazza, E. / Viazlo, O. / Vichoudis, P. / Virdee, T. / Voirin, E. / Vojinovi\c, M. / Vojinovic, M. / Wade, A. / Wang, C. / Wang, C. C. / Wang, D. / Wang, F. / Wang, X. / Wang, Z. / Wayne, M. / Webb, S. N. / Whitbeck, A. / Wickwire, R. / Wilson, J. S. / Wu, H. Y. / Wu, L. / Xiao, M. / Yang, J. / Yeh, C. H / Yohay, R. / Yu, D. / Yu, S. S. / Yuan, C. / Miao, Y. / Yumiceva, F. / Yusuff, I. / Zabi, A. / Zacharopoulou, A. / Zamiatin, N. / Zarubin, A. / Zehetner, P. / Zerwas, D. / Zhang, H. / Zhang, J. / Zhang, Y. / Zhang, Z. / Zhao, X.

    2022  

    Abstract: The upgrade of the CMS experiment for the high luminosity operation of the LHC comprises the replacement of the current endcap calorimeter by a high granularity sampling calorimeter (HGCAL). The electromagnetic section of the HGCAL is based on silicon ... ...

    Abstract The upgrade of the CMS experiment for the high luminosity operation of the LHC comprises the replacement of the current endcap calorimeter by a high granularity sampling calorimeter (HGCAL). The electromagnetic section of the HGCAL is based on silicon sensors interspersed between lead and copper (or copper tungsten) absorbers. The hadronic section uses layers of stainless steel as an absorbing medium and silicon sensors as an active medium in the regions of high radiation exposure, and scintillator tiles directly readout by silicon photomultipliers in the remaining regions. As part of the development of the detector and its readout electronic components, a section of a silicon-based HGCAL prototype detector along with a section of the CALICE AHCAL prototype was exposed to muons, electrons and charged pions in beam test experiments at the H2 beamline at the CERN SPS in October 2018. The AHCAL uses the same technology as foreseen for the HGCAL but with much finer longitudinal segmentation. The performance of the calorimeters in terms of energy response and resolution, longitudinal and transverse shower profiles is studied using negatively charged pions, and is compared to GEANT4 predictions. This is the first report summarizing results of hadronic showers measured by the HGCAL prototype using beam test data.

    Comment: Accepted for publication by JINST
    Schlagwörter Physics - Instrumentation and Detectors
    Thema/Rubrik (Code) 621
    Erscheinungsdatum 2022-11-09
    Erscheinungsland us
    Dokumenttyp Buch ; Online
    Datenquelle BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

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  5. Buch ; Online: The DAQ system of the 12,000 Channel CMS High Granularity Calorimeter Prototype

    Acar, B. / Adamov, G. / Adloff, C. / Afanasiev, S. / Akchurin, N. / Akgün, B. / Alhusseini, M. / Alison, J. / Altopp, G. / Alyari, M. / An, S. / Anagul, S. / Andreev, I. / Andrews, M. / Aspell, P. / Atakisi, I. A. / Bach, O. / Baden, A. / Bakas, G. /
    Bakshi, A. / Bargassa, P. / Barney, D. / Becheva, E. / Behera, P. / Belloni, A. / Bergauer, T. / Besancon, M. / Bhattacharya, S. / Bhowmik, D. / Bloch, P. / Bodek, A. / Bonanomi, M. / Bonnemaison, A. / Bonomally, S. / Borg, J. / Bouyjou, F. / Braga, D. / Brashear, J. / Brondolin, E. / Bryant, P. / Bueghly, J. / Bilki, B. / Burkle, B. / Butler-Nalin, A. / Callier, S. / Calvet, D. / Cao, X. / Caraway, B. / Caregari, S. / Ceard, L. / Cekmecelioglu, Y. C. / Cerminara, G. / Charitonidis, N. / Chatterjee, R. / Chen, Y. M. / Chen, Z. / Cheng, K. y. / Chernichenko, S. / Cheung, H. / Chien, C. H. / Choudhury, S. / Čoko, D. / Collura, G. / Couderc, F. / Dumanoglu, I. / Dannheim, D. / Dauncey, P. / David, A. / Davies, G. / Day, E. / DeBarbaro, P. / De Guio, F. / de La Taille, C. / De Silva, M. / Debbins, P. / Delagnes, E. / Deltoro, J. M. / Derylo, G. / de Almeida, P. G. Dias / Diaz, D. / Dinaucourt, P. / Dittmann, J. / Dragicevic, M. / Dugad, S. / Dutta, V. / Dutta, S. / Eckdahl, J. / Edberg, T. K. / Berni, M. El / Eno, S. C. / Ershov, Yu. / Everaerts, P. / Extier, S. / Fahim, F. / Fallon, C. / Alves, B. A. Fontana Santos / Frahm, E. / Franzoni, G. / Freeman, J. / French, T. / Guler, E. Gurpinar / Guler, Y. / Gagnan, M. / Gandhi, P. / Ganjour, S. / Garcia-Bellido, A. / Gecse, Z. / Geerebaert, Y. / Gerwig, H. / Gevin, O. / Gilbert, W. / Gilbert, A. / Gill, K. / Gingu, C. / Gninenko, S. / Golunov, A. / Golutvin, I. / Gonzalez, T. / Gorbounov, N. / Gouskos, L. / Gu, Y. / Guilloux, F. / Gülmez, E. / Hammer, M. / Harilal, A. / Hatakeyama, K. / Heering, A. / Hegde, V. / Heintz, U. / Hinger, V. / Hinton, N. / Hirschauer, J. / Hoff, J. / Hou, W. S. / Isik, C. / Incandela, J. / Jain, S. / Jheng, H. R. / Joshi, U. / Kara, O. / Kachanov, V. / Kalinin, A. / Kameshwar, R. / Kaminskiy, A. / Karneyeu, A. / Kaya, O. / Kaya, M. / Khukhunaishvili, A. / Kim, S. / Koetz, K. / Kolberg, T. / Kristić, A. / Krohn, M. / Krüger, K. / Kulagin, N. / Kulis, S. / Kunori, S. / Kuo, C. M. / Kuryatkov, V. / Kyre, S. / Köseyan, O. K. / Lai, Y. / Lamichhane, K. / Landsberg, G. / Langford, J. / Lee, M. Y. / Levin, A. / Li, A. / Li, B. / Li, J. -H. / Liao, H. / Lincoln, D. / Linssen, L. / Lipton, R. / Liu, Y. / Lobanov, A. / Lu, R. S. / Lysova, I. / Magnan, A. M. / Magniette, F. / Maier, A. A. / Malakhov, A. / Mandjavize, I. / Mannelli, M. / Mans, J. / Marchioro, A. / Martelli, A. / Masterson, P. / Meng, B. / Mengke, T. / Mestvirishvili, A. / Mirza, I. / Moccia, S. / Morrissey, I. / Mudholkar, T. / Musić, J. / Musienko, I. / Nabili, S. / Nagar, A. / Nikitenko, A. / Noonan, D. / Noy, M. / Nurdan, K. / Ochando, C. / Odegard, B. / Odell, N. / Onel, Y. / Ortez, W. / Ozegović, J. / Rodriguez, L. Pacheco / Paganis, E. / Pagenkopf, D. / Palladino, V. / Pandey, S. / Pantaleo, F. / Papageorgakis, C. / Papakrivopoulos, I. / Parshook, J. / Pastika, N. / Paulini, M. / Paulitsch, P. / Peltola, T. / Gomes, R. Pereira / Perkins, H. / Petiot, P. / Pitters, F. / Prosper, H. / Prvan, M. / Puljak, I. / Quast, T. / Quinn, R. / Quinnan, M. / Rapacz, K. / Raux, L. / Reichenbach, G. / Reinecke, M. / Revering, M. / Rodriguez, A. / Romanteau, T. / Rose, A. / Rovere, M. / Roy, A. / Rubinov, P. / Rusack, R. / Simsek, A. E. / Sozbilir, U. / Sahin, O. M. / Sanchez, A. / Saradhy, R. / Sarkar, T. / Sarkisla, M. A. / Sauvan, J. B. / Schmidt, I. / Schmitt, M. / Scott, E. / Seez, C. / Sefkow, F. / Sharma, S. / Shein, I. / Shenai, A. / Shukla, R. / Sicking, E. / Sieberer, P. / Sirois, Y. / Smirnov, V. / Spencer, E. / Steen, A. / Strait, J. / Strebler, T. / Strobbe, N. / Su, J. W. / Sukhov, E. / Sun, L. / Sun, M. / Syal, C. / Tali, B. / Tok, U. G. / Topaksu, A. Kayis / Tan, C. L. / Tastan, I. / Tatli, T. / Thaus, R. / Tekten, S. / Thienpont, D. / Pierre-Emile, T. / Tiras, E. / Titov, M. / Tlisov, D. / Troska, J. / Tsamalaidze, Z. / Tsipolitis, G. / Tsirou, A. / Tyurin, N. / Undleeb, S. / Urbanski, D. / Ustinov, V. / Uzunian, A. / van de Klundert, M. / Varela, J. / Velasco, M. / Pinto, M. Vicente Barreto / da Silva, P. M. / Virdee, T. / de Oliveira, R. Vizinho / Voelker, J. / Voirin, E. / Wang, Z. / Wang, X. / Wang, F. / Wayne, M. / Webb, S. N. / Weinberg, M. / Whitbeck, A. / White, D. / Wickwire, R. / Wilson, J. S. / Wu, H. Y. / Wu, L. / Yeh, C. H / Yohay, R. / Yu, G. B. / Yu, S. S. / Yu, D. / Yumiceva, F. / Zacharopoulou, A. / Zamiatin, N. / Zarubin, A. / Zenz, S. / Zhang, H. / Zhang, J.

    2020  

    Abstract: The CMS experiment at the CERN LHC will be upgraded to accommodate the 5-fold increase in the instantaneous luminosity expected at the High-Luminosity LHC (HL-LHC). Concomitant with this increase will be an increase in the number of interactions in each ... ...

    Abstract The CMS experiment at the CERN LHC will be upgraded to accommodate the 5-fold increase in the instantaneous luminosity expected at the High-Luminosity LHC (HL-LHC). Concomitant with this increase will be an increase in the number of interactions in each bunch crossing and a significant increase in the total ionising dose and fluence. One part of this upgrade is the replacement of the current endcap calorimeters with a high granularity sampling calorimeter equipped with silicon sensors, designed to manage the high collision rates. As part of the development of this calorimeter, a series of beam tests have been conducted with different sampling configurations using prototype segmented silicon detectors. In the most recent of these tests, conducted in late 2018 at the CERN SPS, the performance of a prototype calorimeter equipped with ${\approx}12,000\rm{~channels}$ of silicon sensors was studied with beams of high-energy electrons, pions and muons. This paper describes the custom-built scalable data acquisition system that was built with readily available FPGA mezzanines and low-cost Raspberry PI computers.
    Schlagwörter Physics - Instrumentation and Detectors ; High Energy Physics - Experiment
    Thema/Rubrik (Code) 621
    Erscheinungsdatum 2020-12-07
    Erscheinungsland us
    Dokumenttyp Buch ; Online
    Datenquelle BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

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  6. Buch ; Online: Construction and commissioning of CMS CE prototype silicon modules

    Acar, B. / Adamov, G. / Adloff, C. / Afanasiev, S. / Akchurin, N. / Akgün, B. / Alhusseini, M. / Alison, J. / Altopp, G. / Alyari, M. / An, S. / Anagul, S. / Andreev, I. / Andrews, M. / Aspell, P. / Atakisi, I. A. / Bach, O. / Baden, A. / Bakas, G. /
    Bakshi, A. / Bargassa, P. / Barney, D. / Becheva, E. / Behera, P. / Belloni, A. / Bergauer, T. / Besancon, M. / Bhattacharya, S. / Bhowmik, D. / Bloch, P. / Bodek, A. / Bonanomi, M. / Bonnemaison, A. / Bonomally, S. / Borg, J. / Bouyjou, F. / Braga, D. / Brashear, J. / Brondolin, E. / Bryant, P. / Bueghly, J. / Bilki, B. / Burkle, B. / Butler-Nalin, A. / Callier, S. / Calvet, D. / Cao, X. / Caraway, B. / Caregari, S. / Ceard, L. / Cekmecelioglu, Y. C. / Cerminara, G. / Charitonidis, N. / Chatterjee, R. / Chen, Y. M. / Chen, Z. / Cheng, K. y. / Chernichenko, S. / Cheung, H. / Chien, C. H. / Choudhury, S. / Čoko, D. / Collura, G. / Couderc, F. / Dumanoglu, I. / Dannheim, D. / Dauncey, P. / David, A. / Davies, G. / Day, E. / DeBarbaro, P. / De Guio, F. / de La Taille, C. / De Silva, M. / Debbins, P. / Delagnes, E. / Deltoro, J. M. / Derylo, G. / de Almeida, P. G. Dias / Diaz, D. / Dinaucourt, P. / Dittmann, J. / Dragicevic, M. / Dugad, S. / Dutta, V. / Dutta, S. / Eckdahl, J. / Edberg, T. K. / Berni, M. El / Eno, S. C. / Ershov, Yu. / Everaerts, P. / Extier, S. / Fahim, F. / Fallon, C. / Alves, B. A. Fontana Santos / Frahm, E. / Franzoni, G. / Freeman, J. / French, T. / Guler, E. Gurpinar / Guler, Y. / Gagnan, M. / Gandhi, P. / Ganjour, S. / Garcia-Bellido, A. / Gecse, Z. / Geerebaert, Y. / Gerwig, H. / Gevin, O. / Gilbert, W. / Gilbert, A. / Gill, K. / Gingu, C. / Gninenko, S. / Golunov, A. / Golutvin, I. / Gonzalez, T. / Gorbounov, N. / Gouskos, L. / Gu, Y. / Guilloux, F. / Gülmez, E. / Hammer, M. / Harilal, A. / Hatakeyama, K. / Heering, A. / Hegde, V. / Heintz, U. / Hinger, V. / Hinton, N. / Hirschauer, J. / Hoff, J. / Hou, W. S. / Isik, C. / Incandela, J. / Jain, S. / Jheng, H. R. / Joshi, U. / Kara, O. / Kachanov, V. / Kalinin, A. / Kameshwar, R. / Kaminskiy, A. / Karneyeu, A. / Kaya, O. / Kaya, M. / Khukhunaishvili, A. / Kim, S. / Koetz, K. / Kolberg, T. / Kristić, A. / Krohn, M. / Krüger, K. / Kulagin, N. / Kulis, S. / Kunori, S. / Kuo, C. M. / Kuryatkov, V. / Kyre, S. / Köseyan, O. K. / Lai, Y. / Lamichhane, K. / Landsberg, G. / Langford, J. / Lee, M. Y. / Levin, A. / Li, A. / Li, B. / Li, J. -H. / Liao, H. / Lincoln, D. / Linssen, L. / Lipton, R. / Liu, Y. / Lobanov, A. / Lu, R. S. / Lysova, I. / Magnan, A. M. / Magniette, F. / Maier, A. A. / Malakhov, A. / Mandjavize, I. / Mannelli, M. / Mans, J. / Marchioro, A. / Martelli, A. / Masterson, P. / Meng, B. / Mengke, T. / Mestvirishvili, A. / Mirza, I. / Moccia, S. / Morrissey, I. / Mudholkar, T. / Musić, J. / Musienko, I. / Nabili, S. / Nagar, A. / Nikitenko, A. / Noonan, D. / Noy, M. / Nurdan, K. / Ochando, C. / Odegard, B. / Odell, N. / Onel, Y. / Ortez, W. / Ozegović, J. / Rodriguez, L. Pacheco / Paganis, E. / Pagenkopf, D. / Palladino, V. / Pandey, S. / Pantaleo, F. / Papageorgakis, C. / Papakrivopoulos, I. / Parshook, J. / Pastika, N. / Paulini, M. / Paulitsch, P. / Peltola, T. / Gomes, R. Pereira / Perkins, H. / Petiot, P. / Pitters, F. / Prosper, H. / Prvan, M. / Puljak, I. / Quast, T. / Quinn, R. / Quinnan, M. / Rapacz, K. / Raux, L. / Reichenbach, G. / Reinecke, M. / Revering, M. / Rodriguez, A. / Romanteau, T. / Rose, A. / Rovere, M. / Roy, A. / Rubinov, P. / Rusack, R. / Simsek, A. E. / Sozbilir, U. / Sahin, O. M. / Sanchez, A. / Saradhy, R. / Sarkar, T. / Sarkisla, M. A. / Sauvan, J. B. / Schmidt, I. / Schmitt, M. / Scott, E. / Seez, C. / Sefkow, F. / Sharma, S. / Shein, I. / Shenai, A. / Shukla, R. / Sicking, E. / Sieberer, P. / Sirois, Y. / Smirnov, V. / Spencer, E. / Steen, A. / Strait, J. / Strebler, T. / Strobbe, N. / Su, J. W. / Sukhov, E. / Sun, L. / Sun, M. / Syal, C. / Tali, B. / Tok, U. G. / Topaksu, A. Kayis / Tan, C. L. / Tastan, I. / Tatli, T. / Thaus, R. / Tekten, S. / Thienpont, D. / Pierre-Emile, T. / Tiras, E. / Titov, M. / Tlisov, D. / Troska, J. / Tsamalaidze, Z. / Tsipolitis, G. / Tsirou, A. / Tyurin, N. / Undleeb, S. / Urbanski, D. / Ustinov, V. / Uzunian, A. / van de Klundert, M. / Varela, J. / Velasco, M. / Pinto, M. Vicente Barreto / da Silva, P. M. / Virdee, T. / de Oliveira, R. Vizinho / Voelker, J. / Voirin, E. / Wang, Z. / Wang, X. / Wang, F. / Wayne, M. / Webb, S. N. / Weinberg, M. / Whitbeck, A. / White, D. / Wickwire, R. / Wilson, J. S. / Wu, H. Y. / Wu, L. / Yeh, C. H / Yohay, R. / Yu, G. B. / Yu, S. S. / Yu, D. / Yumiceva, F. / Zacharopoulou, A. / Zamiatin, N. / Zarubin, A. / Zenz, S. / Zhang, H. / Zhang, J.

    2020  

    Abstract: As part of its HL-LHC upgrade program, the CMS Collaboration is developing a High Granularity Calorimeter (CE) to replace the existing endcap calorimeters. The CE is a sampling calorimeter with unprecedented transverse and longitudinal readout for both ... ...

    Abstract As part of its HL-LHC upgrade program, the CMS Collaboration is developing a High Granularity Calorimeter (CE) to replace the existing endcap calorimeters. The CE is a sampling calorimeter with unprecedented transverse and longitudinal readout for both electromagnetic (CE-E) and hadronic (CE-H) compartments. The calorimeter will be built with $\sim$30,000 hexagonal silicon modules. Prototype modules have been constructed with 6-inch hexagonal silicon sensors with cell areas of 1.1~$cm^2$, and the SKIROC2-CMS readout ASIC. Beam tests of different sampling configurations were conducted with the prototype modules at DESY and CERN in 2017 and 2018. This paper describes the construction and commissioning of the CE calorimeter prototype, the silicon modules used in the construction, their basic performance, and the methods used for their calibration.

    Comment: 35 pages, submitted to JINST
    Schlagwörter Physics - Instrumentation and Detectors ; High Energy Physics - Experiment
    Thema/Rubrik (Code) 621
    Erscheinungsdatum 2020-12-10
    Erscheinungsland us
    Dokumenttyp Buch ; Online
    Datenquelle BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl)

    Volltext online

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