PSI - Issue 47

Stavros Tseremoglou et al. / Procedia Structural Integrity 47 (2023) 119–124 Tseremoglou/ Structural Integrity Procedia 00 (2023) 000 – 000

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Pokluda, J., Vojtek, T., Hohenwarter, A., Pippan, R., 2015. Effects of microstructure and crystallography on crack path and intrinsic resistance to shear-mode fatigue crack growth. Frat. Ed Integrità Strutt. 9. Roncali, E., Stockhoff, M., Cherry, S.R., 2017. An integrated model of scintillator-reflector properties for advanced simulations of optical transport. Phys Med Biol. 62(12), 4811-4830. Saatsakis, G., Linardatos, D., Ninos, K., Valais, I., Kalyvas, N., Bakas, A., Kandarakis, I., Fountos, G., Panayiotakis, G., Michail, C., 2020. Temperature Dependence of the Luminescence output of CdWO 4 Crystal. Comparison with CaF 2 :Eu. Procedia Struct. Integr. 28, 971– 977. Saatsakis, G., Linardatos, D., Karpetas, G., Kalyvas, N., Ninos, K., Bakas, A., Lavdas, E., Fountos, G., Kandarakis, I., Valais, I., Michail, C., 2021. On the thermal response of LuAG:Ce single crystals. Procedia Struct. Integr. 33, 287–294. Salomoni, M., Pots, R., Auffray, E., Lecoq, P., 2018. Enhancing Light Extraction of Inorganic Scintillators Using Photonic Crystals. Crystals 8(2), 78. Saxena, A., 2019. Challenges in predicting crack growth in structures operating in extreme environments. Procedia Structural Integrity 14, 774 781. Shah, K.S., Glodo, J., Klugerman, M., Cirignano, L., Moses, W.W., Derenzo, S.E., Weber, M.J., 2003. LaCl 3 :Ce scintillator for g-ray detection, Nuclear Instruments and Methods in Physics Research A 505, 76 – 81. Tseremoglou, S., Michail, C., Valais, I., Ninos, K., Bakas, A., Kandarakis, I., Fountos, G., Kalyvas, N., 2022. Efficiency Properties of Cerium Doped Lanthanum Chloride (LaCl 3 :Ce) Single Crystal Scintillator under Radiographic X-Ray Excitation. Crystals 12 (5), 655. Valais, I., Kandarakis, I., Nikolopoulos, D., Sianoudis, I., Dimitropoulos, N., Cavouras, D., Nomicos, C., Panayiotakis, G.S., 2005. Luminescence efficiency of Gd 2 SiO 5 :Ce scintillator under x-ray excitation. IEEE Trans. Nucl. Sci. 52, 1830 – 1835. Valais, I., Kandarakis, I., Nikolopoulos, D., Michail, C., David, S., Loudos, G., Cavouras, D., Panayiotakis, G.S., 2007. Luminescence properties of (Lu,Y) 2 SiO 5 :Ce and Gd 2 SiO 5 :Ce single crystal scintillators under X-ray excitation for use in medical imaging systems. IEEE Trans. Nucl. Sci. 54, 11 – 18. Valais, I., 2008. Systematic Study of the Light Emission Efficiency and the Corresponding Intrinsic Physical Characteristics Of Single Crystal Scintillators, Doped with the Trivalent Cerium (Ce 3+ ) Activator, in Wide Energy Range (from 20 kV – 18 MV) for Medical Applications. Ph.D. Thesis, University of Patras, Patras, Greece. Van Eijk, C.W.E., 2002. Inorganic scintillators in medical imaging. Phys. Med. Biol. 47, R85 – R106. Van Loef, E.V.D., Dorenbos, P., Van Eijk, C.W.E., Kramer, K., Gudel, H.U., 2000. Scintillation properties of LaCl 3 :Ce 3+ crystals: fast, efficient and high-energy-resolution scintillators. IEEE Nuclear Science Symposium. Conference Record (Cat. No.00CH37149). Wraxler, R.M., Cleek, G.W., 1973. The effect of temperature and pressure on the refractive index of some oxide glasses. Journal of research of the National Bureau of Standards - A. Physics and C hemistr y Vol. 77A, No. 6, p.755.