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The CMS Silicon Strip Tracker: System Tests and Test Beam Results
With a total area of 210 squaremeters and about 15000 single silicon modules the silicon strip tracker of the CMS experiment at the LHC will be the largest silicon strip detector ever built. While the performance of the individual mechanical and electronic components has already been tested extensiv...
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| Lenguaje: | eng |
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2003
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| Acceso en línea: | https://dx.doi.org/10.1142/9789812702708_0103 http://cds.cern.ch/record/694365 |
| _version_ | 1780902169316163584 |
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| author | Klein, Katja |
| author_facet | Klein, Katja |
| author_sort | Klein, Katja |
| collection | CERN |
| description | With a total area of 210 squaremeters and about 15000 single silicon modules the silicon strip tracker of the CMS experiment at the LHC will be the largest silicon strip detector ever built. While the performance of the individual mechanical and electronic components has already been tested extensively, their interplay in larger integrated substructures also has to be studied before mass production can be launched, in order to ensure the envisaged performance of the overall system. This is the main purpose of the system tests, during which hardware components as final as possible are being integrated into substructures of the tracker subsystems. System tests are currently being carried out for all subsystems of the tracker. In addition, silicon modules and electronic components have been operated and studied in a particle beam environment. In this report results from the CMS silicon tracker system tests and a test beam experiment at CERN are presented. |
| id | cern-694365 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2003 |
| record_format | invenio |
| spelling | cern-6943652023-03-14T18:16:44Zdoi:10.1142/9789812702708_0103doi:10.1142/9789812702708_0103http://cds.cern.ch/record/694365engKlein, KatjaThe CMS Silicon Strip Tracker: System Tests and Test Beam ResultsOther Fields of PhysicsDetectors and Experimental TechniquesWith a total area of 210 squaremeters and about 15000 single silicon modules the silicon strip tracker of the CMS experiment at the LHC will be the largest silicon strip detector ever built. While the performance of the individual mechanical and electronic components has already been tested extensively, their interplay in larger integrated substructures also has to be studied before mass production can be launched, in order to ensure the envisaged performance of the overall system. This is the main purpose of the system tests, during which hardware components as final as possible are being integrated into substructures of the tracker subsystems. System tests are currently being carried out for all subsystems of the tracker. In addition, silicon modules and electronic components have been operated and studied in a particle beam environment. In this report results from the CMS silicon tracker system tests and a test beam experiment at CERN are presented.With a total area of 210 squaremeters and about 15000 single silicon modules the silicon strip tracker of the CMS experiment at the LHC will be the largest silicon strip detector ever built. While the performance of the individual mechanical and electronic components has already been tested extensively, their interplay in larger integrated substructures also has to be studied before mass production can be launched, in order to ensure the envisaged performance of the overall system. This is the main purpose of the system tests, during which hardware components as final as possible are being integrated into substructures of the tracker subsystems. System tests are currently being carried out for all subsystems of the tracker. In addition, silicon modules and electronic components have been operated and studied in a particle beam environment. In this report results from the CMS silicon tracker system tests and a test beam experiment at CERN are presented.With a total area of 210 squaremeters and about 15000 single silicon modules the silicon strip tracker of the CMS experiment at the LHC will be the largest silicon strip detector ever built. While the performance of the individual mechanical and electronic components has already been tested extensively, their interplay in larger integrated substructures also has to be studied before mass production can be launched, in order to ensure the envisaged performance of the overall system. This is the main purpose of the system tests, during which hardware components as final as possible are being integrated into substructures of the tracker subsystems. System tests are currently being carried out for all subsystems of the tracker. In addition, silicon modules and electronic components have been operated and studied in a particle beam environment. In this report results from the CMS silicon tracker system tests and a test beam experiment at CERN are presented.With a total area of 210 squaremeters and about 15000 single silicon modules the silicon strip tracker of the CMS experiment at the LHC will be the largest silicon strip detector ever built. While the performance of the individual mechanical and electronic components has already been tested extensively, their interplay in larger integrated substructures also has to be studied before mass production can be launched, in order to ensure the envisaged performance of the overall system. This is the main purpose of the system tests, during which hardware components as final as possible are being integrated into substructures of the tracker subsystems. System tests are currently being carried out for all subsystems of the tracker. In addition, silicon modules and electronic components have been operated and studied in a particle beam environment. In this report results from the CMS silicon tracker system tests and a test beam experiment at CERN are presented.With a total area of 210 squaremeters and about 15000 single silicon modules the silicon strip tracker of the CMS experiment at the LHC will be the largest silicon strip detector ever built. While the performance of the individual mechanical and electronic components has already been tested extensively, their interplay in larger integrated substructures also has to be studied before mass production can be launched, in order to ensure the envisaged performance of the overall system. This is the main purpose of the system tests, during which hardware components as final as possible are being integrated into substructures of the tracker subsystems. System tests are currently being carried out for all subsystems of the tracker. In addition, silicon modules and electronic components have been operated and studied in a particle beam environment. In this report results from the CMS silicon tracker system tests and a test beam experiment at CERN are presented.With a total area of 210 m<sup>2</sup> and about 15000 single silicon modules the silicon strip tracker of the CMS experiment at the LHC will be the largest silicon strip detector ever built. While the performance of the individual mechanical and electronic components has already been tested extensively, their interplay in larger integrated substructures also has to be studied before mass production can be launched, in order to ensure the envisaged performance of the overall system. This is the main purpose of the system tests, during which hardware components as final as possible are being integrated into substructures of the tracker subsystems. System tests are currently being carried out for all subsystems of the tracker. In addition, silicon modules and electronic components have been operated and studied in a particle beam environment. In this report results from the CMS silicon tracker system tests and a test beam experiment at CERN are presented.With a total area of 210 squaremeters and about 15000 single silicon modules the silicon strip tracker of the CMS experiment at the LHC will be the largest silicon strip detector ever built. While the performance of the individual mechanical and electronic components has already been tested extensively, their interplay in larger integrated substructures also has to be studied before mass production can be launched, in order to ensure the envisaged performance of the overall system. This is the main purpose of the system tests, during which hardware components as final as possible are being integrated into substructures of the tracker subsystems. System tests are currently being carried out for all subsystems of the tracker. In addition, silicon modules and electronic components have been operated and studied in a particle beam environment. In this report results from the CMS silicon tracker system tests and a test beam experiment at CERN are presented.physics/0312132CMS-CR-2003-052CMS CR 2003/052CMS-CR-2003-052oai:cds.cern.ch:6943652003-12-08 |
| spellingShingle | Other Fields of Physics Detectors and Experimental Techniques Klein, Katja The CMS Silicon Strip Tracker: System Tests and Test Beam Results |
| title | The CMS Silicon Strip Tracker: System Tests and Test Beam Results |
| title_full | The CMS Silicon Strip Tracker: System Tests and Test Beam Results |
| title_fullStr | The CMS Silicon Strip Tracker: System Tests and Test Beam Results |
| title_full_unstemmed | The CMS Silicon Strip Tracker: System Tests and Test Beam Results |
| title_short | The CMS Silicon Strip Tracker: System Tests and Test Beam Results |
| title_sort | cms silicon strip tracker: system tests and test beam results |
| topic | Other Fields of Physics Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1142/9789812702708_0103 https://dx.doi.org/10.1142/9789812702708_0103 http://cds.cern.ch/record/694365 |
| work_keys_str_mv | AT kleinkatja thecmssiliconstriptrackersystemtestsandtestbeamresults AT kleinkatja cmssiliconstriptrackersystemtestsandtestbeamresults |