ZnO(In) Scintillation Light Spectra Investigation for Heavy Ion Detector Application

Saifulin, Maxim; Walasek-Höhne, Beata; Rodnyi, Piotr; Boutachkov, Plamen; Venevtsev, Ivan; Trautmann, Christina; Gorokhova, Elena

doi:10.18429/JACOW-IBIC2022-TUP29

Contribution to a conference proceedings

GSI-2024-01150

ZnO(In) Scintillation Light Spectra Investigation for Heavy Ion Detector Application

Saifulin, M. (Corresponding author)GSI* ; Boutachkov, P.GSI* ; Trautmann, C.GSI* ; Walasek-Höhne, B.GSI* ; Rodnyi, P. ; Venevtsev, I. ; Gorokhova, E.

2022
JACoW Publishing, Geneva, Switzerland Geneva

11th International Beam Instrumentation Conference, IBIC2022, Kraków, Poland, 11 Sep 2022 - 15 Sep 2022 Geneva : JACoW Publishing, Geneva, Switzerland 2 pages (2022) [10.18429/JACOW-IBIC2022-TUP29]

Please use a persistent id in citations: doi:10.18429/JACOW-IBIC2022-TUP29 doi:10.15120/GSI-2024-01150

Abstract: ZnO-based ceramics are known as promising scintillators exhibiting light emission in the ultraviolet (UV) spectral region (~390 nm) and ultrafast decay times (1 ns). They are of great interest for applications in scintillation counters and screens at high-energy heavy ion accelerators. In this contribution, the deterioration of scintillating properties of ZnO-based ceramics subjected to heavy ion exposure at high doses is investigated. The scintillation light spectra of ZnO(In) as a function of fluence for 4.8 MeV/u 48Ca and 197Au ions were studied. We observed that the deterioration of the scintillation intensity with increasing fluence follows the Birks-Black model.

Keyword(s): Accelerator Physics ; 06 Beam Charge and Current Monitors

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