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CMS

  1. Nikl, M; Decay kinetics and thermoluminescence of PbWO$_4$:La$^{3+}$ Appl. Phys. Lett. 71 (26), 1997, 3755,3757.
  2. Baccaro, S; Precise determination of the light yield of scintillating crystals. NIM A 385 (1997) 69-73
  3. Baccaro, S; Ordinary and extraordinary complex refractive index of the lead tungstate (PbWO$_4$) crystal. NIM A 385 (1997) 209-214
  4. Baccaro, S; Radiation damage and thermoluminescence of Gd-doped PbWO$_4$ phys. stat. sol. (a) 164, R9 (1997)
  5. Baccaro, S; Influence of vacuum annealing on properties of PbWO$_4$ crystals Journal of Luminescence 72-74 (1997) 748-750
  6. Organtini, G ; Avalanche photodiodes for the CMS electromagnetic calorimeter IEEE Trans. Nucl. Sci. 46 1999 3, pt.1- 4, pt.1 -6, pt.2 (243-249).
  7. Borgia, B; Performance of an automatic bench for scintillating crystal light yield measurement. - 1997. NIM A 426 (1999) 446-452
  8. Auffray, E ; et al. Beam tests of lead tungstate crystal matrices and a silicon strip preshower detector for the CMS electromagnetic calorimeter Nucl. Instrum. Methods Phys. Res., A : 412 (1998) 223 2/3
  9. Baccaro, S; et al. An automatic device for the quality control of large-scale crystal's production NIM A 459 (2001) 278-284
  10. Organtini, G. The CMS electromagnetic calorimeter Nucl. Instrum. Methods Phys. Res., A 478 (2002) 333-5
  11. Organtini, G. Software tools at the Rome CMS/ECAL Regional Center Comput. Phys. Commun. 140 (2001) 92-101

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Next: Altro Up: curriculum Previous: L3
Giovanni Organtini 2004-02-03