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Performance of a diamond - tungsten sampling calorimeter
We report here the first measurements of a diamond-tungsten sampling calorimeter. The calorimeter consisted of twenty layers of diamond with one radiation length of tungsten per layer. The diamond layers were grown by chemical vapor deposition and were $3.0 \times 3.0$ cm$^2$ wafers with an average...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
1994
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/0168-9002(94)90612-2 http://cds.cern.ch/record/2633864 |
| _version_ | 1780959730914557952 |
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| author | Tesarek, R J Gilman, Ronald A Kumbartzki, G Lee, M H Rutt, P Sannes, F Schnetzer, S Somalwar, S V Stone, R Thomson, G B Franklin, M Kanda, S Morozov, B Sugimoto, Y Han, S Kania, D R Pan, L S Fujino, D Gan, K K Hassard, J Kagan, H Kass, R Malchow, R Margetides, S Palmer, W White, Christopher G Zhao, S Kim, S K |
| author_facet | Tesarek, R J Gilman, Ronald A Kumbartzki, G Lee, M H Rutt, P Sannes, F Schnetzer, S Somalwar, S V Stone, R Thomson, G B Franklin, M Kanda, S Morozov, B Sugimoto, Y Han, S Kania, D R Pan, L S Fujino, D Gan, K K Hassard, J Kagan, H Kass, R Malchow, R Margetides, S Palmer, W White, Christopher G Zhao, S Kim, S K |
| author_sort | Tesarek, R J |
| collection | CERN |
| description | We report here the first measurements of a diamond-tungsten sampling calorimeter. The calorimeter consisted of twenty layers of diamond with one radiation length of tungsten per layer. The diamond layers were grown by chemical vapor deposition and were $3.0 \times 3.0$ cm$^2$ wafers with an average thickness of $500 \mu \rm{m}$. We measured the energy response and resolution $(\sigma_E / E)$ of this calorimeter in 0.5–5.0 GeV electron beams and compared the results with those from a silicon calorimeter of similar construction. Our energy resolution is $\sigma_E / E = (4.7 \pm 2.7) \% / E \oplus (19.13 \pm 0.86) \% / \sqrt{E} \oplus (2.3 \pm 1.8) \%$ for the diamond-tungsten calorimeter, where $\oplus$ indicates addition in quadrature. This is in good agreement with our result for the silicon-tungsten calorimeter of $\sigma_E / E = (3.89 \pm 0.87) \%/ E \oplus (19.73 \pm 0.19) \% / \sqrt{E} \oplus (0.0 \pm 1.6) \%$. We also compare our data with EGS simulations. |
| id | oai-inspirehep.net-384110 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 1994 |
| record_format | invenio |
| spelling | oai-inspirehep.net-3841102019-09-30T06:29:59Zdoi:10.1016/0168-9002(94)90612-2http://cds.cern.ch/record/2633864engTesarek, R JGilman, Ronald AKumbartzki, GLee, M HRutt, PSannes, FSchnetzer, SSomalwar, S VStone, RThomson, G BFranklin, MKanda, SMorozov, BSugimoto, YHan, SKania, D RPan, L SFujino, DGan, K KHassard, JKagan, HKass, RMalchow, RMargetides, SPalmer, WWhite, Christopher GZhao, SKim, S KPerformance of a diamond - tungsten sampling calorimeterDetectors and Experimental TechniquesWe report here the first measurements of a diamond-tungsten sampling calorimeter. The calorimeter consisted of twenty layers of diamond with one radiation length of tungsten per layer. The diamond layers were grown by chemical vapor deposition and were $3.0 \times 3.0$ cm$^2$ wafers with an average thickness of $500 \mu \rm{m}$. We measured the energy response and resolution $(\sigma_E / E)$ of this calorimeter in 0.5–5.0 GeV electron beams and compared the results with those from a silicon calorimeter of similar construction. Our energy resolution is $\sigma_E / E = (4.7 \pm 2.7) \% / E \oplus (19.13 \pm 0.86) \% / \sqrt{E} \oplus (2.3 \pm 1.8) \%$ for the diamond-tungsten calorimeter, where $\oplus$ indicates addition in quadrature. This is in good agreement with our result for the silicon-tungsten calorimeter of $\sigma_E / E = (3.89 \pm 0.87) \%/ E \oplus (19.73 \pm 0.19) \% / \sqrt{E} \oplus (0.0 \pm 1.6) \%$. We also compare our data with EGS simulations.RU-94-03OHSTPY-HEP-E-94-023oai:inspirehep.net:3841101994 |
| spellingShingle | Detectors and Experimental Techniques Tesarek, R J Gilman, Ronald A Kumbartzki, G Lee, M H Rutt, P Sannes, F Schnetzer, S Somalwar, S V Stone, R Thomson, G B Franklin, M Kanda, S Morozov, B Sugimoto, Y Han, S Kania, D R Pan, L S Fujino, D Gan, K K Hassard, J Kagan, H Kass, R Malchow, R Margetides, S Palmer, W White, Christopher G Zhao, S Kim, S K Performance of a diamond - tungsten sampling calorimeter |
| title | Performance of a diamond - tungsten sampling calorimeter |
| title_full | Performance of a diamond - tungsten sampling calorimeter |
| title_fullStr | Performance of a diamond - tungsten sampling calorimeter |
| title_full_unstemmed | Performance of a diamond - tungsten sampling calorimeter |
| title_short | Performance of a diamond - tungsten sampling calorimeter |
| title_sort | performance of a diamond - tungsten sampling calorimeter |
| topic | Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1016/0168-9002(94)90612-2 http://cds.cern.ch/record/2633864 |
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