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  1. 1601
    por Kirkby, D
    Publicado 1992
    Enlace del recurso
    Enlace del recurso
    SPLASH: Simulation of Photons in Leading-Log Apximation Showers
  2. 1602
    por Annenkov, A N, Korzhik, M V, Lecoq, P
    Publicado 1998
    “…The example of the development in Russia of lead tungstate crystals for the CMS electromagnetic calorimeter at CERN, $9 Geneva, will be chosen to illustrate this challenging enterprise. (10 refs).…”
    Enlace del recurso
    Lead tungstate scintillator for high energy physics applications
  3. 1603
    “…An apparatus for the detection of high-energy electrons and photons is described. Lead-glass Cherenkov counters measure the energies, and charged particle tracks are reconstructed using an array of wire spark chambers. …”
    Enlace del recurso
    Enlace del recurso
    A lead-glass Cerenkov detector for electrons and photons
  4. 1604
    por Collective
    Publicado 1995
    Enlace del recurso
    10th Annual Conference for Leading Edge Developers
  5. 1605
    por Chekanov, S V
    Publicado 1999
    Enlace del recurso
    Issues in leading particle and charm production in DIS at HERA
  6. 1606
    por Abreu, M C, Alessandro, B, Alexa, C, Arnaldi, R, Astruc, J, Ataian, M R, Baglin, C, Baldit, A, Bedjidian, Marc, Bellaiche, F G, Beolè, S, Boldea, V, Bordalo, P, Bussière, A, Capelli, L, Capony, V, Casagrande, L, Castor, J I, Chambon, T, Chaurand, B, Chevrot, I, Cheynis, B, Chiavassa, E, Cicalò, C, Comets, M P, Constans, N, Constantinescu, S, Cortese, P, Cruz, J, De Falco, A, De Marco, N, Dellacasa, G, Devaux, A, Dita, S, Drapier, O, Ducroux, L, Espagnon, B, Fargeix, J, Ferretti, A, Filippov, S N, Fleuret, F, Force, P, Gallio, M, Gavrilov, Yu K, Gerschel, C, Giubellino, P, Golubeva, M B, Gonin, M, Grigorian, A A, Grossiord, J Y, Guber, F F, Guichard, A, Gulkanian, H R, Hakobyan, R S, Haroutunian, R, Idzik, M, Jouan, D, Karavitcheva, T L, Kluberg, L, Kurepin, A B, Le Bornec, Y, Lourenço, C, Macciotta, P, MacCormick, M, Marzari-Chiesa, A, Masera, M, Masoni, A, Mehrabyan, S S, Monteno, M, Mourgues, S, Musso, A, Ohlsson-Malek, F, Oppedisano, C, Petiau, P, Piccotti, A, Pizzi, J R, Prado da Silva, W L, Puddu, G, Quintans, C, Racca, C, Ramello, L, Ramos, S, Rato-Mendes, P, Riccati, L, Romana, A, Ropotar, I, Saturnini, P, Scalas, E, Scomparin, E, Serci, S, Shahoyan, R, Silva, S, Sitta, M, Soave, C, Sonderegger, P, Tarrago, X, Topilskaya, N S, Usai, G L, Vercellin, Ermanno, Villatte, L, Willis, N
    Publicado 1999
    Enlace del recurso
    Fission of Lead Projectiles in $Pb$-Nucleus Collisions at the SPS
  7. 1607
    Publicado 2001
    “…The detector is made of scintillators sandwiched between lead sheets. The light from the scintillators passes via bars of wavelength shifter and light guides on its way to be measured by photomultipliers. …”
    Enlace del recurso
    OPAL Forward Calorimeter (half cylinder with lead scintillator)
  8. 1608
    por Gröbner, Oswald
    Publicado 1979
    Enlace del recurso
    Synchrotron radiation lead shield on the vacuum chamber of LEP
  9. 1609
    “…Results for several full size (23 cm length) lead tungstate crystals under Co/sup 60/ gamma - ray irradiation are given, investigating the light yield loss and its longitudinal uniformity. (8 refs).…”
    Enlace del recurso
    Testing the radiation hardness of lead tungstate scintillating crystals
  10. 1610
    Enlace del recurso
    Black leads for wood-cased pencils - classification and diameters
  11. 1611
    por Aglietti, U.
    Publicado 2001
    “…We present a next-to-leading evaluation of the resummed coefficient function for the shape function. …”
    Enlace del recurso
    Enlace del recurso
    Next-to-leading resummed coefficient function for the shape function
  12. 1612
    Enlace del recurso
    Letter of intent: a lead-beam experiment proposal
  13. 1613
    Enlace del recurso
    Evidence for $\eta$' leading production in gluon-induced jets
  14. 1614
    por Lecoq, P
    Publicado 1999
    Enlace del recurso
    Large scale production of lead tungstate crystals in Russia
  15. 1615
    Enlace del recurso
    Thermally stimulated luminescence properties of lead tungstate crystals
  16. 1616
    por Diemoz, M
    Publicado 2000
    Enlace del recurso
    Progress on lead tungstate crystals for the CMS electromagnetic calorimeter
  17. 1617
    por Ballarino, A
    Publicado 2002
    “…The LHC superconducting magnets will be powered through HTS current leads transferring in total more than 3 MA of current. …”
    Enlace del recurso
    Enlace del recurso
    HTS Current Leads for the LHC Magnet Powering System
  18. 1618
    por Dafinei, I
    Publicado 2002
    “…With its over 80,000 scintillating lead tungstate PbWO/sub 4/ (PWO) crystals the CMS electromagnetic calorimeter (ECAL) will be the largest one ever constructed. …”
    Enlace del recurso
    Lead tungstate crystals for the CMS electromagnetic calorimeter at the LHC
  19. 1619
    Publicado 2003
    “…The photon spectrometer (PHOS) is designed to measure the temperature of collisions by detecting photons emerging from them. It will be made of lead tungstate crystals like these. When high-energy photons strike lead tungstate, they make it glow, or scintillate, and this glow can be measured. …”
    Enlace del recurso
    Lead-Tungstate Crystal of the ALICE Photon Spectrometer (PHOS)
  20. 1620
    Enlace del recurso
    Measurement and control of the ATLAS electromagnetic calorimeter lead plates
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