| Autor: |
Delchamps, S.W. Rameika, R. Haire, M. Mazur, P.O. Murphy, C.T. Smith, R.P. Spiege, L. Turkot, F. Yang, W. Arenton, M.A. Cox, B. Chen, T.Y. Lai, K.W. Yao, N. Conetti, S. Kuzminski, J. Marchionni, A.M. Rosati, M. Simard, A.S. Stairs, D. Zioulas, G. Etemadi, B. Tucker, W. Fortney, L. Shen, Q. Tesarek, R. Turkington, T. Guffey, K. Judd, D.J. Tumbull, L. Wagoner, D.E. Ioannu, P. Kourkoumelis, C. Koutentakis, I. Manousakis-Katsikakis, A. Pramantiotis, T. Resvanis, L.K. Vassiliou, M. Voulgaris, G. Jenkins, C.M. Mao, H. Shen, C.H. Wang, C. Zhang, N. Zhang, X. Rosen, J.L. Tzamarias, S. |
| Jazyk: |
angličtina |
| Rok vydání: |
1989 |
| Předmět: |
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| Popis: |
A 544-channel low-noise, high-rate, precision charge amplification and ADC system was constructed for the Fermilab Experiment 705 electromagnetic calorimeter, which employs SCG1-C scintillating glass and SF5 lead glass instrumented with photo-multiplier tubes. A general discussion of the system is given, and the charge amplification, fast trigger pulse generation, and analog to digital conversion aspects of the system are presented in more detail. Performance is evaluated using data from Experiment 705 and from off-line tests. Short and long term pedestal stability, baseline recovery and rate capability, linearity of response, and crosstalk between channels are discussed. © 1989 IEEE |
| Databáze: |
OpenAIRE |
| Externí odkaz: |
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