Abstract
Even at present time there is a strong interest and demand for high quality lead tungstate crystals (PbWO4, PWO) for electromagnetic (EM) calorimetry. PWO is implemented into the EM calorimeter of the CMS-ECAL detector at LHC [1] and required for the completion of the PANDA EMC [2] and various ongoing detector projects at Jefferson Lab. The successful mass production of PWO using the Czochralski method was stopped after bankruptcy of the Bogoroditsk Technical Chemical Plant (BTCP) in Russia as major producer so far. The Shanghai Institute of Ceramics, Chinese Academy of Science (China) was considered as an alternative producer using the modified Bridgman method. The company CRYTUR (Turnov, Czech Republic) with good experience in the development and production of different types of inorganic oxide crystals has restarted at the end of 2014 the development of lead tungstate for mass production based on the Czochralski method. An impressive progress was achieved since then. The growing technology was optimized to produce full size samples with the quality meeting the PANDA-EMC specifications for PWO-II. We will present a detailed progress report on the research program in collaboration with groups at Orsay and JLab. The full size crystals will be characterized with respect to optical performance, light yield, kinetics and radiation hardness.
Highlights
Related content- Growth of Crack-Free 3-Inch-Diameter Lithium Tetraborate Single Crystals by Czochralski Method Ryuichi Komatsu, Tadashi Sugihara and Satoshi Uda
The lead tungstate (PbWO4, PWO) scintillation crystal is one of the most widely used scintillation materials in electromagnetic calorimetry in modern accelerator experiments. It combines an unique set of physical and scintillation properties, which allow the construction of an affordable compact electromagnetic calorimeter (EMC)
The company CRYTUR (Turnov, Czech Republic) has a good experience in the development and production of different types of inorganic oxide crystals and has initiated a research program to develop the technology of mass production of lead tungstate crystals
Summary
- Growth of Crack-Free 3-Inch-Diameter Lithium Tetraborate Single Crystals by Czochralski Method Ryuichi Komatsu, Tadashi Sugihara and Satoshi Uda. - Characterization of YbNi4(P1–xAsx), x = 0, 0.2 single crystals grown by Czochralski method K Kliemt and C Krellner. - Bulk Single Crystal Growth of Bi12TiO20 by the Czochralski Method Yasunori Okano, Hiroyuki Wada, Tsuguo Fukuda et al
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