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Modern micropattern gas detectors

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
International Conference on Recent Developments and Applications of Nuclear Technologies (15-17.09 2008 ; Białowieża, Poland)
Języki publikacji
EN
Abstrakty
EN
In all measurement systems of radiation, the detector is the most important part. We can say that it is the heart of these systems. Gas detectors are still the most popular type of detector. Modern technologies allow manufacturing gas detectors having a very good energy and position (2D) resolution, high efficiency, large effective area, small count rate effect, radiation hardness, good signal-to-noise ratio and not complicated structure. These detectors are very fast and can stably work for a long period of time. One advantage of gas detectors is the possibility to read not only charge, but also UV light generated in the detector. In this paper we want to make a review of construction, mechanical properties, performance and possible applications of the following so-called micropattern gas detectors (MPGD): microstrip gas chamber (MSGC), gas electron multiplier (GEM), MICRO-MEsh GAseous Structure (MICROMEGAS) and capillary plate detector (CP).
Czasopismo
Rocznik
Strony
25--28
Opis fizyczny
Bibliogr. 16 poz., rys.
Twórcy
autor
  • Faculty of Physics and Applied Computer Science, AGH University of Science and Technology, 30 A. Mickiewicza Ave., 30-059 Kraków, Poland, Tel.: +48 12 6174734, Fax: +48 12 6340010
autor
  • Faculty of Physics and Applied Computer Science, AGH University of Science and Technology, 30 A. Mickiewicza Ave., 30-059 Kraków, Poland, Tel.: +48 12 6174734, Fax: +48 12 6340010
  • Faculty of Physics and Applied Computer Science, AGH University of Science and Technology, 30 A. Mickiewicza Ave., 30-059 Kraków, Poland, Tel.: +48 12 6174734, Fax: +48 12 6340010
Bibliografia
  • 1. Alfonsi M, Bencivenni G, de Simone P et al. (2004) High--rate particle triggering with triple – GEM detector. Nucl Instrum Methods Phys Res A 518:106–112
  • 2. Bateman JE, Connolly JF, Stephenson R, Edwards M, Thomson JC (1994) The development of gas microstrip detectors for high energy physics applications. Nucl Instrum Methods Phys Res A 348:372–377
  • 3. CERN (2008) Internal report of research and development RD51 collaboration development of micropattern gas detectors technologies. LHCC 2008, RD51-2008--001:1–43
  • 4. Colas P, Giomataris I, Lepeltier V (2004) Ion backflow in the micromegas TPC for the future linear collider. LAL.04-14 DAPNIA 04-78;1–8
  • 5. Delbart A, De Oliveira R, Derre J et al. (2001) New developments of Micromegas detector. Nucl Instrum Methods Phys Res A 461:84–87
  • 6. Duerdoth I, Snow S, Thompson R, Lumb N (1994) A study of breakdown in microstrip gas chambers. Nucl Instrum Methods Phys Res A 348:356–360
  • 7. Giomataris Y, Rebourgeard Ph, Robert JP, Charpak G (1996) MICROMEGAS: a high-granularity position-sensitive gaseous detector for high particle flux environments. Nucl Instrum Methods Phys Res A 376:29–35
  • 8. Oed A (1988) Position-sensitive detector with microstrip anode for electron multiplication with gases. Nucl Instrum Methods Phys Res A 263:351–359
  • 9. Oed A (1995) Properties of microstrip gas chambers (MSGC) and recent developments. Nucl Instrum Methods Phys Res A 367:34–40
  • 10. Roth S (2004) Study of GEM structures for TPC readout. Nucl Instrum Methods Phys Res A 518:103–105
  • 11. Sakurai H, Tamura T, Gunji S, Noma M (1996) A new type of proportional counter using a capillary plate. Nucl Instrum Methods Phys Res A 374:341–344
  • 12. Sakurai H, Tokanai F, Gunji S et al. (2004) Measurement of X-ray polarization using optical imaging detector with capillary plate. Nucl Instrum Methods Phys Res A 525:6–11
  • 13. Sauli F (1997) GEM: A new concept for electron amplification in gas detectors. Nucl Instrum Methods Phys Res A 386:531–534
  • 14. Titov M (2007) New developments and future perspectives of gaseous detectors. Nucl Instrum Methods Phys Res A 581:25–37
  • 15. Tokanai F, Atsumi T, Endo T et al. (2006) Developments of optical imaging capillary plate gas detector. Nucl Instrum Methods Phys Res A 567:376–380
  • 16. Tokanai F, Sakurai H, Gunji S et al. (2007) Evaluation of capillary plate gas detector filled with Ne + CF4 and Ar + CF4 gas mixtures. Nucl Instrum Methods Phys Res A 581:236–240
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5c589da2-c3f5-4523-b6f3-4fc88c2deffc
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