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The Successful Operation of Hole-type Gaseous Detectors at Cryogenic Temperatures
We have demonstrated that hole-type gaseous detectors, GEMs and capillary plates, can operate up to 77 K. For example, a single capillary plate can operate at gains of above 10E3 in the entire temperature interval between 300 until 77 K. The same capillary plate combined with CsI photocathodes could...
| Autores principales: | , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2004
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1109/NSSMIC.2004.1462405 http://cds.cern.ch/record/801046 |
| _version_ | 1780904746499964928 |
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| author | Pereiale, L. Peskov, V. Iacobaeus, C. Francke, T. Lund-Jensen, B. Pavlopoulos, P. Picchi, P. Pietropaolo, F. Tokanai, F. |
| author_facet | Pereiale, L. Peskov, V. Iacobaeus, C. Francke, T. Lund-Jensen, B. Pavlopoulos, P. Picchi, P. Pietropaolo, F. Tokanai, F. |
| author_sort | Pereiale, L. |
| collection | CERN |
| description | We have demonstrated that hole-type gaseous detectors, GEMs and capillary plates, can operate up to 77 K. For example, a single capillary plate can operate at gains of above 10E3 in the entire temperature interval between 300 until 77 K. The same capillary plate combined with CsI photocathodes could operate perfectly well at gains (depending on gas mixtures) of 100-1000. Obtained results may open new fields of applications for capillary plates as detectors of UV light and charge particles at cryogenic temperatures: noble liquid TPCs, WIMP detectors or LXe scintillating calorimeters and cryogenic PETs. |
| id | cern-801046 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2004 |
| record_format | invenio |
| spelling | cern-8010462023-03-14T18:47:58Zdoi:10.1109/NSSMIC.2004.1462405http://cds.cern.ch/record/801046engPereiale, L.Peskov, V.Iacobaeus, C.Francke, T.Lund-Jensen, B.Pavlopoulos, P.Picchi, P.Pietropaolo, F.Tokanai, F.The Successful Operation of Hole-type Gaseous Detectors at Cryogenic TemperaturesDetectors and Experimental TechniquesWe have demonstrated that hole-type gaseous detectors, GEMs and capillary plates, can operate up to 77 K. For example, a single capillary plate can operate at gains of above 10E3 in the entire temperature interval between 300 until 77 K. The same capillary plate combined with CsI photocathodes could operate perfectly well at gains (depending on gas mixtures) of 100-1000. Obtained results may open new fields of applications for capillary plates as detectors of UV light and charge particles at cryogenic temperatures: noble liquid TPCs, WIMP detectors or LXe scintillating calorimeters and cryogenic PETs.We have demonstrated that hole-type gaseous detectors, GEMs and capillary plates, can operate up to 77 K. For example, a single capillary plate can operate at gains of above 10E3 in the entire temperature interval between 300 until 77 K. The same capillary plate combined with CsI photocathodes could operate perfectly well at gains (depending on gas mixtures) of 100-1000. Obtained results may open new fields of applications for capillary plates as detectors of UV light and charge particles at cryogenic temperatures: noble liquid TPCs, WIMP detectors or LXe scintillating calorimeters and cryogenic PETs.We have demonstrated that hole-type gaseous detectors, GEMs and capillary plates, can operate up to 77 K. For example, a single capillary plate can operate at gains of above 10E3 in the entire temperature interval between 300 until 77 K. The same capillary plate combined with CsI photocathodes could operate perfectly well at gains (depending on gas mixtures) of 100-1000. Obtained results may open new fields of applications for capillary plates as detectors of UV light and charge particles at cryogenic temperatures: noble liquid TPCs, WIMP detectors or LXe scintillating calorimeters and cryogenic PETs.We have demonstrated that hole-type gaseous detectors, GEMs and capillary plates, can operate up to 77 K. For example, a single capillary plate can operate at gains of above 10E3 in the entire temperature interval between 300 until 77 K. The same capillary plate combined with CsI photocathodes could operate perfectly well at gains (depending on gas mixtures) of 100-1000. Obtained results may open new fields of applications for capillary plates as detectors of UV light and charge particles at cryogenic temperatures: noble liquid TPCs, WIMP detectors or LXe scintillating calorimeters and cryogenic PETs.We have demonstrated that hole-type gaseous detectors, GEMs and capillary plates, can operate up to 77 K. For example, a single capillary plate can operate at gains of above 10E3 in the entire temperature interval between 300 until 77 K. The same capillary plate combined with CsI photocathodes could operate perfectly well at gains (depending on gas mixtures) of 100-1000. Obtained results may open new fields of applications for capillary plates as detectors of UV light and charge particles at cryogenic temperatures: noble liquid TPCs, WIMP detectors or LXe scintillating calorimeters and cryogenic PETs.We have demonstrated that hole-type gaseous detectors, GEMs and capillary plates, can operate up to 77 K. For example, a single capillary plate can operate at gains of above 10/sup 3/ in the entire temperature interval between 300 until 77 K. The same capillary plate combined with CsI photocathodes could operate perfectly well at gains (depending on gas mixtures) of 100-1000. Obtained results may open new fields of applications for capillary plates as detectors of UV light and charge particles at cryogenic temperatures: noble liquid TPCs, WIMP detectors or LXe scintillating calorimeters and cryogenic PETs.physics/0410280POLE-RESEARCH-29-10-04oai:cds.cern.ch:8010462004-10-29 |
| spellingShingle | Detectors and Experimental Techniques Pereiale, L. Peskov, V. Iacobaeus, C. Francke, T. Lund-Jensen, B. Pavlopoulos, P. Picchi, P. Pietropaolo, F. Tokanai, F. The Successful Operation of Hole-type Gaseous Detectors at Cryogenic Temperatures |
| title | The Successful Operation of Hole-type Gaseous Detectors at Cryogenic Temperatures |
| title_full | The Successful Operation of Hole-type Gaseous Detectors at Cryogenic Temperatures |
| title_fullStr | The Successful Operation of Hole-type Gaseous Detectors at Cryogenic Temperatures |
| title_full_unstemmed | The Successful Operation of Hole-type Gaseous Detectors at Cryogenic Temperatures |
| title_short | The Successful Operation of Hole-type Gaseous Detectors at Cryogenic Temperatures |
| title_sort | successful operation of hole-type gaseous detectors at cryogenic temperatures |
| topic | Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1109/NSSMIC.2004.1462405 http://cds.cern.ch/record/801046 |
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