Difference between revisions of "Literature on PWO4"

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# D.Britton et al <i>Light collection uniformity of lead tungstate crystals for the CMS electromagnetic calorimeter</i> 2005 [https://inspirehep.net/literature/683903 INSPIRE]
 
# D.Britton et al <i>Light collection uniformity of lead tungstate crystals for the CMS electromagnetic calorimeter</i> 2005 [https://inspirehep.net/literature/683903 INSPIRE]
 
# PRIMEX V.Kubantsev et al. <i>Performance of the PrimEx electromagnetic calorimeter</i> 2006 [https://inspirehep.net/literature/727110 INSPIRE]
 
# PRIMEX V.Kubantsev et al. <i>Performance of the PrimEx electromagnetic calorimeter</i> 2006 [https://inspirehep.net/literature/727110 INSPIRE]
# PANDA R.Novotny et al. <i> Performance of PWO-II Prototype Arrays for the EMC of PANDA</i> 2008 [https://ieeexplore.ieee.org/document/4545189 IEEE]
+
# PANDA R.Novotny et al. <i>Performance of PWO-II Prototype Arrays for the EMC of PANDA</i> 2008 [https://ieeexplore.ieee.org/document/4545189 IEEE]
 +
# PANDA M.Moritz et al. <i>The PANDA Electromagnetic Calorimeter—A High-Resolution Detector Based on PWO-II</i> 2010 [https://ieeexplore.ieee.org/document/5485106 IEEE]
 
# V.Dormenev et al. <i> Radiation damage and recovery mechanisms in cooled PbWO<sub>4</sub> crystals</i> 2011 [https://inspirehep.net/literature/1406772 INSPIRE]
 
# V.Dormenev et al. <i> Radiation damage and recovery mechanisms in cooled PbWO<sub>4</sub> crystals</i> 2011 [https://inspirehep.net/literature/1406772 INSPIRE]
 +
# PANDA A.Dbeyssi et al. <i>Tests of optical glues for the PANDA electromagnetic calorimeter</i> 2013 [https://inspirehep.net/literature/1403878 INSPIRE]
 +
# PANDA S.Diehl et al. <i>Impact of Non-Uniformity in Light Collection on the Energy Resolution of the PANDA Electromagnetic Calorimeter at Photon Energies Below 1 GeV</i> 2016 [https://inspirehep.net/literature/1639991 INSPIRE]
 +
# PANDA C.Rosenbaum et al <i>Response of a close to final prototype for the PANDA Electromagnetic Calorimeter to photons at energies below 1 GeV</i> 2016 [https://inspirehep.net/literature/1458120 INSPIRE]
 +
# PANDA C.Rosenbaum et al <i>Performance of Prototypes for the Barrel Part of the PANDA Electromagnetic Calorimeter</i> 2016 [https://inspirehep.net/literature/1491229 INSPIRE]
 +
# PANDA M.Moritz et al <i>The Electromagnetic Calorimeter for the PANDA Target Spectrometer</i> 2019 [https://inspirehep.net/literature/1733066 INSPIRE]

Revision as of 23:26, 14 August 2020

Literature on PWO4 crystals in Calorimetry

  1. Crystal clear collaboration' status report: R & D for the study of new fast and radiation hard scintillators for calorimetry at LHC: RD-18 1993 INSPIRE
  2. D.Graham, C.Seez Simulation of Longitudinal Light Collection Uniformity in PbWO4 crystals 1996 INSPIRE
  3. S.Burahas et al. Lead tungstate crystals for the ALICE/CERN experiment 2002 NIMA
  4. M.Ippolitov et al. Studies of lead tungstate crystals for the ALICE electromagnetic calorimeter PHOS 2002 NIMA
  5. E.Auffray et al. Development of a Uniformisation Procedure for the PbWO4 Crystals of the CMS Electromagnetic Calorimeter 2001 INSPIRE
  6. M.Huhtinen et al. First results on radiation damage in PbWO4 crystals exposed to a 20-GeV/c proton beam 2003 INSPIRE
  7. ALICE PHOS D.Alexandrov et al. A high resolution electromagnetic calorimeter based on lead-tungstate crystals 2005 INSPIRE
  8. ALICE PHOS G.Conesa et al. Performance of the ALICE photon spectrometer PHOS 2005 NIMA
  9. D.Britton et al Light collection uniformity of lead tungstate crystals for the CMS electromagnetic calorimeter 2005 INSPIRE
  10. PRIMEX V.Kubantsev et al. Performance of the PrimEx electromagnetic calorimeter 2006 INSPIRE
  11. PANDA R.Novotny et al. Performance of PWO-II Prototype Arrays for the EMC of PANDA 2008 IEEE
  12. PANDA M.Moritz et al. The PANDA Electromagnetic Calorimeter—A High-Resolution Detector Based on PWO-II 2010 IEEE
  13. V.Dormenev et al. Radiation damage and recovery mechanisms in cooled PbWO4 crystals 2011 INSPIRE
  14. PANDA A.Dbeyssi et al. Tests of optical glues for the PANDA electromagnetic calorimeter 2013 INSPIRE
  15. PANDA S.Diehl et al. Impact of Non-Uniformity in Light Collection on the Energy Resolution of the PANDA Electromagnetic Calorimeter at Photon Energies Below 1 GeV 2016 INSPIRE
  16. PANDA C.Rosenbaum et al Response of a close to final prototype for the PANDA Electromagnetic Calorimeter to photons at energies below 1 GeV 2016 INSPIRE
  17. PANDA C.Rosenbaum et al Performance of Prototypes for the Barrel Part of the PANDA Electromagnetic Calorimeter 2016 INSPIRE
  18. PANDA M.Moritz et al The Electromagnetic Calorimeter for the PANDA Target Spectrometer 2019 INSPIRE