Transparent Ceramic Scintillators

Yanagida, T., Fujimoto, Y, Kurosawa, S. et al. 2011a. Ultrafast transparent ceramic scintillators using the Yb charge transfer luminescence in REjOj Host. Applied Physics Express 4 126402. 

Cherepy NJ, Kuntz JD, Roberts JJ, Hurst TA, Drury OB, Sarmer RD et al (2008) Transparent ceramic scintillator fabrication, properties and applications, hr BurgCT A, Franks LA, James RB (eds) Hard X-ray, gamma-ray, and neutron detector physics X. SPIE-The Intonational Society for Optical Engineering, Bellingham... 

Seeley Z, Cherepy N, Payne S (2013) Two-step sintering of Gdo.3Lu1.6Euo.1O3 transparent ceramic scintillator. Opt Mater Express 3... 

Y, Shi, Q.W. Chen, J.L. Shi, Processing and scintillation properties of Eu doped LU2O3 transparent ceramics. Optical Materials, in press. (2008). 

Cherepy, N. J., Kuntz, J. D., Tillotson, T. M., Speaks, D. T., Payne, S. A., Chai, B. H. T., Porter-Chapman, Y, Derenzo, S. E. 2007. Cerium-doped single crystal and transparent ceramic lutetium aluminum garnet scintillators. Nuclear Instruments and Methods in Physics Research A 579 38-41. 

Retot, H., Blahuta, S., Bessiere, A., Viana, B., LaCourse, B., Mattmann, E. 2011. Improved scintillation time response in (Luo,5Gdo.5)203 Eu compared with LujOj Etf+ transparent ceramics. Journal of Physics D 44 235101. 

Applications of transparent ceramics are covered in the last two chapters, with Chap. 9 focusing on solid-state lasers with transparent ceramics and Chap. 10 on all other applications of transparent ceramics. In Chap. 9, besides traditional transparent laser ceramics, advanced ceramic laser technologies, including composite ceramics and crystal fibers (not ceramics), are also included, in order to demonstrate new research and development direction of solid-state lasers. In Chap. 10, other applications, such as lighting, scintillation, armor, potential biomaterials, and so on, are summarized and discussed. 

Optical properties of Y2O3 ceramics, doped with rare-earth ions, are of special interest for some applications, such as solid-state lasers and scintillators [95]. Luminescence properties, such as upconversions, are also of special significance. For instance, REA"b co-doped Y2O3 transparent ceramics (RE = Er, Ho, Pr and Tm), exhibited very efficient NIR-visible upconverters [96]. 

Fukabori A, Yanagida T, Pejchal J, Maeo S, Yokota Y, Yoshikawa A et al (2010) Optical and scintillation characteristics of Y2O3 transparent ceramic. J Appl Phys 107 073501... 

Yanagida T, Kamada K, Fujimoto Y, Yokota Y, Yoshikawa A, Yagi H et al (2011) Scintillation properties of transparent ceramic and single crystalline Nd YAG scintillators. 

Besides their applications in solid-state lasers, transparent ceramics have been found to be applicable in many other areas, such as lighting, scintillators, opto-electric devices, optical systems and armors, which will be discussed in detail in this chapter. New applications of transparent ceramics, e.g., as biomaterials, will also be mentioned at the end of this chapter. 

However, it was observed that, as new scintillators, these complex perovskite ceramics have a dilFerent thermal quenching effect, as compared to the conventional scintillator materials, which deserves further investigation in the future. Figure 10.8 shows a photograph of the perovskite transparent ceramic samples, with a thickness of 2 mm [123]. Optical properties, including transmittance, photoluminescence, and photoluminescence decay time, have been characterized. Scintillation properties, such as radioluminescence and pulse height spectra, were studied in details. 

Yanagida T, Fujimoto Y, Yagi H, Yanagitani T (2014) Optical and scintillation properties of transparent ceramic Yb Lu203 with diflerent Yb concentrations. Opt Mater 36 1044-1048... 

Futami Y, Yanagida T, Fujimoto Y, Pejchal J, Sugiyama M, Kurosawa S et al (2013) Optical and scintillation properties of SC2O3, Y2O3 and LU2O3 transparent ceramics synthesized by SPS method. Radiat Meas 55 136-140... 

Compared with single crystals, transparent ceramics offer several advantages, for example, lower cost, easy fabrication of materials of large size, and especially those with high melting points. Currently, transparent ceramics have found a wide range of application in lighting, solid state lasers, scintillators, windows and battle field etc. 

An interest in new scintillator materials is pushed by increasing number of medical, industrial or scientific applications, requiring higher material performance. The main transparent ceramic systems include (Y,Gd)203 Eu,Pr(YG0), Gd202S Pr,Ce,F(GOS), and Gd3GasOi2 Cr,Ce (GGG). In recent years, new systems (Ce doped BaHfOs and Eu or Tb -doped LU2O3) were also under study. 

Podowitz SR, Gaume R, Feigelson RS (2010) Effect of europium concentration on densiflcation of transparent Eu Y203 scintillator ceramics using hot pressing. J Am Ceram... 

Shen YQ, Feng XQ, Babin V, Niki M, Vedda A, Moretti F et al (2013) Fabrication and scintillation properties of highly transparent Pr LuAG ceramics using Sc, La-based isovalent sintering aids. Ceram Int 39 5985-5990... 

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