Radiation Damage Effects
Author:
Publisher
Springer International Publishing
Link
https://link.springer.com/content/pdf/10.1007/978-3-319-93785-4_22
Reference34 articles.
1. Auffray E, Korjik M, Singovski A (2012) Experimental study of lead tungstate scintillator proton-induced damage and recovery. IEEE Trans Nucl Sci 59:2219–2223
2. Auffray E, Barysevich A, Fedorov A, Korjik M, Koschan M, Lucchini M, Mechinski V, Melcher CL, Voitovich A (2013) Radiation damage of LSO crystals under γ -and 24 GeV protons irradiation. Nucl Instrum Meth A721:76–82
3. Batarin VA, Butkler J, Chen TY, Davidenko AM, Derevschikov AA, Goncharenko YM et al (2003) Study of radiation damage in lead tungstate crystals using intense high-energy beams. Nucl Instrum Meth A512:488–505, 530:286–292 (2004) and 540:131–139 (2005)
4. Bilki B (2015) CMS forward calorimeters phase II upgrade. J Phys Conf Ser 587:012014
5. Chen JM, Mao RH, Zhang LY, Zhu R-Y (2005) Large size LYSO crystals for future high energy physics experiments. IEEE Trans Nucl Sci 52:2133–2140. and IEEE Trans Nucl Sci 54:718–724 (2007)
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