Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technology
The RADiCAL Collaboration is conducting R&D on precision-timing electromagnetic (EM) calorimetry to address the challenges expected in future collider experiments under conditions of high luminosity and/or high irradiation such as those expected at the FCC-ee and FCC-hh colliding beam facilities...
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EDP Sciences
2025-01-01
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| Series: | EPJ Web of Conferences |
| Online Access: | https://www.epj-conferences.org/articles/epjconf/pdf/2025/05/epjconf_calor2024_00060.pdf |
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| author | Zhu Renyuan Akgun Ugur Anderson Thomas Barbera Thomas Blend Dylan Cankocak Kerem Cerci Salim Chigurupati Nehal Cox Bradley Debbins Paul Dubnowski Max Duran Buse Gul Dincer Gizem Hatipoglu Selbi Hos Ilknur Isildak Bora Jessop Colin Kamer Koseyan Ohannes Karazu Uysal Ayben Kaynak Berkan Kurt Reyhan Ledovskoy Alexander Mestvirishvili Alexi Onel Yasar Ozkorucuklu Suat Penzo Aldo Perez Lara Carlos Potok Onur Ruchti Randal Ruggiero Daniel Sunar Cerci Deniz Tosun Ali Vigneault Mark Wan Yuyi Wayne Mitchell Wetzel James Yetkin Taylan Zhang Liyuan Zorbilmez Caglar |
| author_facet | Zhu Renyuan Akgun Ugur Anderson Thomas Barbera Thomas Blend Dylan Cankocak Kerem Cerci Salim Chigurupati Nehal Cox Bradley Debbins Paul Dubnowski Max Duran Buse Gul Dincer Gizem Hatipoglu Selbi Hos Ilknur Isildak Bora Jessop Colin Kamer Koseyan Ohannes Karazu Uysal Ayben Kaynak Berkan Kurt Reyhan Ledovskoy Alexander Mestvirishvili Alexi Onel Yasar Ozkorucuklu Suat Penzo Aldo Perez Lara Carlos Potok Onur Ruchti Randal Ruggiero Daniel Sunar Cerci Deniz Tosun Ali Vigneault Mark Wan Yuyi Wayne Mitchell Wetzel James Yetkin Taylan Zhang Liyuan Zorbilmez Caglar |
| author_sort | Zhu Renyuan |
| collection | DOAJ |
| description | The RADiCAL Collaboration is conducting R&D on precision-timing electromagnetic (EM) calorimetry to address the challenges expected in future collider experiments under conditions of high luminosity and/or high irradiation such as those expected at the FCC-ee and FCC-hh colliding beam facilities. Under development are sampling calorimeter structures known as RADiCAL modules, based on scintillation and wavelength-shifting (WLS) technologies, and read out by SiPM photosensors. The module in the test described here consists of alternating layers of very dense tungsten (W) absorber and scintillating crystal (LYSO:Ce) plates, assembled to a depth of 25 radiation lengths (X0). The scintillation signals produced by the EM showers in the region of EM shower maximum (shower max) are transmitted to SiPM located at the upstream and downstream ends of the module via quartz capillaries which penetrate the full length of the module and which contain either organic DSB1 WLS filaments or ceramic LuAG:Ce WLS filaments positioned within the region of shower max, where the shower energy deposition is greatest. The remaining volume within the capillaries, upstream and downstream of the WLS filaments, is filled and fused with quartz rod to form solid quartz waveguides. Preliminary results are presented of the timing resolution of the RADiCAL module over the energy range 25 GeV ≤ E ≤ 150 GeV using both types of wavelength shifters. The studies were conducted using electron beam in the H2 beamline at CERN, Geneva, Switzerland. |
| format | Article |
| id | doaj-art-2e7b1ed7d3af4b3bb2ec9dd22ca377c3 |
| institution | DOAJ |
| issn | 2100-014X |
| language | English |
| publishDate | 2025-01-01 |
| publisher | EDP Sciences |
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| series | EPJ Web of Conferences |
| spelling | doaj-art-2e7b1ed7d3af4b3bb2ec9dd22ca377c32025-08-20T03:05:45ZengEDP SciencesEPJ Web of Conferences2100-014X2025-01-013200006010.1051/epjconf/202532000060epjconf_calor2024_00060Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technologyZhu Renyuan0Akgun Ugur1Anderson Thomas2Barbera Thomas3Blend Dylan4Cankocak Kerem5Cerci Salim6Chigurupati Nehal7Cox Bradley8Debbins Paul9Dubnowski Max10Duran Buse11Gul Dincer Gizem12Hatipoglu Selbi13Hos Ilknur14Isildak Bora15Jessop Colin16Kamer Koseyan Ohannes17Karazu Uysal Ayben18Kaynak Berkan19Kurt Reyhan20Ledovskoy Alexander21Mestvirishvili Alexi22Onel Yasar23Ozkorucuklu Suat24Penzo Aldo25Perez Lara Carlos26Potok Onur27Ruchti Randal28Ruggiero Daniel29Sunar Cerci Deniz30Tosun Ali31Vigneault Mark32Wan Yuyi33Wayne Mitchell34Wetzel James35Yetkin Taylan36Zhang Liyuan37Zorbilmez Caglar38California Institute of TechnologyCoe CollegeUniversity of VirginiaUniversity of Notre DameUniversity of IowaIstanbul Technical UniversityYildiz Technical UniversityUniversity of VirginiaUniversity of VirginiaUniversity of IowaUniversity of VirginiaIstanbul UniversityIstanbul Technical UniversityIstanbul UniversityIstanbul University – CerrahpasaYildiz Technical UniversityUniversity of Notre DameUniversity of IowaYildiz Technical UniversityIstanbul UniversityYildiz Technical UniversityUniversity of VirginiaUniversity of IowaUniversity of IowaIstanbul UniversityUniversity of IowaFermi National Accelerator LaboratoryIstanbul UniversityUniversity of Notre DameUniversity of Notre DameYildiz Technical UniversityIstanbul UniversityUniversity of Notre DameUniversity of Notre DameUniversity of Notre DameCoe CollegeYildiz Technical UniversityCalifornia Institute of TechnologyIstanbul UniversityThe RADiCAL Collaboration is conducting R&D on precision-timing electromagnetic (EM) calorimetry to address the challenges expected in future collider experiments under conditions of high luminosity and/or high irradiation such as those expected at the FCC-ee and FCC-hh colliding beam facilities. Under development are sampling calorimeter structures known as RADiCAL modules, based on scintillation and wavelength-shifting (WLS) technologies, and read out by SiPM photosensors. The module in the test described here consists of alternating layers of very dense tungsten (W) absorber and scintillating crystal (LYSO:Ce) plates, assembled to a depth of 25 radiation lengths (X0). The scintillation signals produced by the EM showers in the region of EM shower maximum (shower max) are transmitted to SiPM located at the upstream and downstream ends of the module via quartz capillaries which penetrate the full length of the module and which contain either organic DSB1 WLS filaments or ceramic LuAG:Ce WLS filaments positioned within the region of shower max, where the shower energy deposition is greatest. The remaining volume within the capillaries, upstream and downstream of the WLS filaments, is filled and fused with quartz rod to form solid quartz waveguides. Preliminary results are presented of the timing resolution of the RADiCAL module over the energy range 25 GeV ≤ E ≤ 150 GeV using both types of wavelength shifters. The studies were conducted using electron beam in the H2 beamline at CERN, Geneva, Switzerland.https://www.epj-conferences.org/articles/epjconf/pdf/2025/05/epjconf_calor2024_00060.pdf |
| spellingShingle | Zhu Renyuan Akgun Ugur Anderson Thomas Barbera Thomas Blend Dylan Cankocak Kerem Cerci Salim Chigurupati Nehal Cox Bradley Debbins Paul Dubnowski Max Duran Buse Gul Dincer Gizem Hatipoglu Selbi Hos Ilknur Isildak Bora Jessop Colin Kamer Koseyan Ohannes Karazu Uysal Ayben Kaynak Berkan Kurt Reyhan Ledovskoy Alexander Mestvirishvili Alexi Onel Yasar Ozkorucuklu Suat Penzo Aldo Perez Lara Carlos Potok Onur Ruchti Randal Ruggiero Daniel Sunar Cerci Deniz Tosun Ali Vigneault Mark Wan Yuyi Wayne Mitchell Wetzel James Yetkin Taylan Zhang Liyuan Zorbilmez Caglar Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technology EPJ Web of Conferences |
| title | Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technology |
| title_full | Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technology |
| title_fullStr | Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technology |
| title_full_unstemmed | Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technology |
| title_short | Study of the time and energy resolution of an ultracompact sampling calorimeter (RADiCAL) module at EM shower maximum over the energy range 25 ≤ E ≤ 150 GeV using scintillation and wavelength shifting technology |
| title_sort | study of the time and energy resolution of an ultracompact sampling calorimeter radical module at em shower maximum over the energy range 25 ≤ e ≤ 150 gev using scintillation and wavelength shifting technology |
| url | https://www.epj-conferences.org/articles/epjconf/pdf/2025/05/epjconf_calor2024_00060.pdf |
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