Temperature and humidity dependence of air fluorescence yield measured by AIRFLY

  1. Ave, M.
  2. Bohacova, M.
  3. Buonomo, B.
  4. Busca, N.
  5. Cazon, L.
  6. Chemerisov, S.D.
  7. Conde, M.E.
  8. Crowell, R.A.
  9. Di Carlo, P.
  10. Di Giulio, C.
  11. Doubrava, M.
  12. Esposito, A.
  13. Facal, P.
  14. Franchini, F.J.
  15. Hörandel, J.
  16. Hrabovsky, M.
  17. Iarlori, M.
  18. Kasprzyk, T.E.
  19. Keilhauer, B.
  20. Klages, H.
  21. Kleifges, M.
  22. Kuhlmann, S.
  23. Mazzitelli, G.
  24. Nozka, L.
  25. Obermeier, A.
  26. Palatka, M.
  27. Petrera, S.
  28. Privitera, P.
  29. Ridky, J.
  30. Rizi, V.
  31. Rodriguez, G.
  32. Salamida, F.
  33. Schovanek, P.
  34. Spinka, H.
  35. Strazzeri, E.
  36. Ulrich, A.
  37. Yusof, Z.M.
  38. Vacek, V.
  39. Valente, P.
  40. Verzi, V.
  41. Waldenmaier, T.
  42. Show all authors +
Journal:
Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

ISSN: 0168-9002

Year of publication: 2008

Volume: 597

Issue: 1

Pages: 50-54

Type: Article

DOI: 10.1016/J.NIMA.2008.08.050 GOOGLE SCHOLAR
Data source: Scopus