Cryogenic tunable microwave cavity at 13 GHz for hyperfine spectroscopy of antiprotonic helium

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For the precise measurement of the hyperfine structure of antiprotonic helium, microwave radiation of 12.9 GHz frequency is needed, tunable over . A cylindrical microwave cavity is used whose front and rear faces are meshed to allow the antiprotons and laser beams to enter. The cavity is embedded in...

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Detalles Bibliográficos
Autores principales: Sakaguchi, J, Gilga, H, Hayano, R S, Ishikawa, T, Suzukia, K, Widmann, E, Yamaguchi, H, Caspers, Friedhelm, Eades, John, Horib, M, Barna, D, Horváth, D, Juhász, B, Torie, H A, Yamazakif, T
Lenguaje:eng
Publicado: 2004
Materias:
Detectors and Experimental Techniques
Acceso en línea:http://cds.cern.ch/record/811334
Descripción
Sumario:For the precise measurement of the hyperfine structure of antiprotonic helium, microwave radiation of 12.9 GHz frequency is needed, tunable over . A cylindrical microwave cavity is used whose front and rear faces are meshed to allow the antiprotons and laser beams to enter. The cavity is embedded in a cryogenic helium gas target. Frequency tuning of with Q values of 2700?3000 was achieved using over-coupling and an external triple stub tuner. We also present Monte-Carlo simulations of the stopping distribution of antiprotons in the low-density helium gas using the GEANT4 package with modified energy loss routines.

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