Modern anorganic scintilators: Physics and applications

Martin Nikl

Pokroky matematiky, fyziky a astronomie (2003)

  • Volume: 48, Issue: 4, page 294-307
  • ISSN: 0032-2423

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Nikl, Martin. "Moderní anorganické scintilační materiály: Fyzika a aplikace." Pokroky matematiky, fyziky a astronomie 48.4 (2003): 294-307. <http://eudml.org/doc/197069>.

@article{Nikl2003,
author = {Nikl, Martin},
journal = {Pokroky matematiky, fyziky a astronomie},
language = {cze},
number = {4},
pages = {294-307},
publisher = {Jednota českých matematiků a fyziků Union of Czech Mathematicians and Physicists},
title = {Moderní anorganické scintilační materiály: Fyzika a aplikace},
url = {http://eudml.org/doc/197069},
volume = {48},
year = {2003},
}

TY - JOUR
AU - Nikl, Martin
TI - Moderní anorganické scintilační materiály: Fyzika a aplikace
JO - Pokroky matematiky, fyziky a astronomie
PY - 2003
PB - Jednota českých matematiků a fyziků Union of Czech Mathematicians and Physicists
VL - 48
IS - 4
SP - 294
EP - 307
LA - cze
UR - http://eudml.org/doc/197069
ER -

References

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  1. Blasse, G., Grabmaier, B. C., Luminescent Materials, Springer-Verlag, Berlin 1994. (1994) 
  2. Rodnyi, P. A., Physical Processes in Inorganic Scintillators, CRC Press, New York 1997. (1997) 
  3. Nikl, M., WIDE BAND GAP SCINTILLATION MATERIALS. Progress in the technology and material understanding, Phys. Stat. Sol. (a) 178 (2000), 595–620. (2000) 
  4. Globus, M. E., Grinyev, B. V., Inorganic Scintillators, Akta, Kharkiv, Ukrajina 2000. (2000) 
  5. Nikl, M., Mihokova, E., Vedda, A., Shimamura, K., Fukuda, T., Oxide and fluoride based materials for scintillator applications, J. Ceramic Proc. Res. 2 (2001), 16–20. (2001) 
  6. Funkcionalnyje materialy dlja nauki i techniki, Ed. V. P. Seminozhenko. Institut monokristalov, Kharkov, Ukraina 2001. (2001) 
  7. Auffray, E., Extensive studies on CeF 3 crystals, a good candidate for electromagnetic calorimetry at future accelerators, Nucl. Instr. Meth. Phys. Research A383 (1996), 367–390. (1996) 
  8. Annenkov, A. A., Korzhik, M. V., Lecoq, P., Lead tungstate scintillation material, Nucl. Instr. Meth. Phys. Research A490 (2002), 30–50. (2002) 
  9. NATO Science For Peace Project No. 973510 “New Scintillator Materials For Scientific, Medical And Industrial Applications”, Další informace viz http://www.fzu.cz/~nikl/NATO/ 
  10. Birch, D. J. S., Imhof, R. E., [unknown], J. Phys. E10 (1977), 1044. (1977) 
  11. [unknown], Firma IBH Scotland je jednou z nejlepších firem v oblasti produktů pro měření časověr̄ozlišené luminiscenční spektroskopie. Viz http://www.ibh.co.uk/. 
  12. Baccaro, S., Boháček, P., Borgia, B., Cecilia, A., Dafinei, I., Diemoz, M., Ishii, M., Jarolimek, O., Kobayashi, M., Martini, M., Montecchi, M., Nikl, M., Nitsch, K., Usuki, Y., Vedda, A., Influence of La-doping on radiation hardness and thermoluminescence characteristics of PbWO4, Phys. Stat. Sol. (a) 160 (1997), R5-R7. (1997) 
  13. Laguta, V. V., Martini, M., Vedda, A., Nikl, M., Mihoková, E., Boháček, P., Rosa, J., Hofstatter, A., Meyer, B. K., Usuki, Y., Photoinduced Pb + center in PbWO 4 : Electron Spin Resonance and Thermally Stimulated Luminescence study, Phys. Rev. B64 (2001), 165102–8. (2001) 

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