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    Journals >NUCLEAR TECHNIQUES >Volume 46 >Issue 12 >Page 120202 > Article
    • NUCLEAR TECHNIQUES
    • Vol. 46, Issue 12, 120202 (2023)
    Performance of the electromagnetic calorimeter module in the NICA-MPD based on Geant4
    Jin ZHU, Xiaoyu PENG, Siyuan LUO, Wancheng XIAO, Lie HE, Yuchen LIU, Fengjiao LUO, Min XIAO, and Xiaodong WANG*
    Author Affiliations
  • School of Nuclear Science and Technology, University of South China, Hengyang 421001, China
    • show less
    DOI: 10.11889/j.0253-3219.2023.hjs.46.120202 Cite this Article
    Jin ZHU, Xiaoyu PENG, Siyuan LUO, Wancheng XIAO, Lie HE, Yuchen LIU, Fengjiao LUO, Min XIAO, Xiaodong WANG. Performance of the electromagnetic calorimeter module in the NICA-MPD based on Geant4[J]. NUCLEAR TECHNIQUES, 2023, 46(12): 120202 Copy Citation Text show less
    References

    [1] Taranenko A. Status of the mega-science project NICA[J]. Journal of Physics: Conference Series, 1685, 012021(2020).

    [2] Zinchenko A, Kolesnikov V, Mudrokh A et al. Prospects for the study of the strangeness and hypernuclei production at NICA/MPD[J]. Journal of Physics: Conference Series, 1390, 012017(2019).

    [3] Abgaryan V, Kado R A, Afanasyev S V et al. Status and initial physics performance studies of the MPD experiment at NICA[J]. The European Physical Journal A, 58, 140(2022).

    [4] Li Y, Han D, Durum A et al. A shashlyk electromagnetic calorimeter system for NICA-MPD[J]. Journal of Instrumentation, 15, C11007(2020).

    [5] Li Y L, Han D, Wang Y et al. Beam test results of two shashlyk ECal modules for NICA-MPD[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 958, 162833(2020).

    [6] Aphecetche L, Awes T C, Banning J et al. PHENIX calorimeter[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 499, 521-536(2003).

    [7] Atoian G S, Issakov V V, Karavichev O V et al. Development of shashlyk calorimeter for KOPIO[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 531, 467-480(2004).

    [8] Dzhelyadin R. The LHCb calorimeter detectors[J]. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 581, 384-388(2007).

    [9] Karlen D. Near detectors for the T2K experiment[J]. Nuclear Physics B - Proceedings Supplements, 159, 91-96(2006).

    [11] Li Y, Shen C, Zhang Z et al. Production and quality control of NICA-MPD shashlik electromagnetic calorimeter in Tsinghua University[J]. Journal of Instrumentation, 17, T04005(2022).

    [12] ZENG Dekai, PENG Xiaoyu, WEI Xin et al. Performance simulation of a Shashlik sampling electromagnetic calorimeter for NICA-MPD[J]. Nuclear Techniques, 44, 080201(2021).

    [13] Shen C, Xiao D, Wang Y et al. Development of shashlik electromagnetic calorimeter for the NICA/MPD[J]. Journal of Instrumentation, 14, T06005(2019).

    [14] Skobliakov A V, Kulikov V V, Bulychjov S A et al. Time response simulation of a “shashlyk”-type calorimeter as applied to ECAL MPD/NICA[J]. Journal of Physics: Conference Series, 1690, 012067(2020).

    [15] Peng X, Zhu K, Ji X et al. Simulation study on photon generation and collection of tower applied to NICA-MPD electromagnetic calorimeter[J]. Journal of Instrumentation, 17, T01004(2022).

    [17] Bhattacharjee M, Tyapkin I, Dabrowska B et al. Calibration of NICA-MPD electromagnetic calorimeter modules with cosmic muons[J]. Journal of Physics: Conference Series, 1690, 012052(2020).

    [20] Wigmans R[M]. Calorimetry: energy measurement in particle physics(2000).

    [21] WANG Yingzhi[M]. Principles of nuclear electronic technology(1989).

    [23] Luo S Y, Huang Y H, Ji X T et al. Hybrid model for muon tomography and quantitative analysis of image quality[J]. Nuclear Science and Techniques, 33, 81(2022).

    [24] Ji X T, Luo S Y, Huang Y H et al. A novel 4D resolution imaging method for low and medium atomic number objects at the centimeter scale by coincidence detection technique of cosmic-ray muon and its secondary particles[J]. Nuclear Science and Techniques, 33, 2(2022).

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    Jin ZHU, Xiaoyu PENG, Siyuan LUO, Wancheng XIAO, Lie HE, Yuchen LIU, Fengjiao LUO, Min XIAO, Xiaodong WANG. Performance of the electromagnetic calorimeter module in the NICA-MPD based on Geant4[J]. NUCLEAR TECHNIQUES, 2023, 46(12): 120202
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