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Diagnostic System Commissioning of the EMMA NS-FFAG Facility at Daresbury Laboratory

We pre­sent pre­lim­i­nary re­sults of beam di­ag­nos­tics for the world's first Non-Scal­ing FFAG Ac­cel­er­a­tor 'EMMA'. Amongst other means, a sin­gle-shot/turn-by-turn BPM sys­tem is used, that was first test­ed on the ALICE in­jec­tor. The BPM sys­tem uti­lizes a front-end con­ve...

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Detalles Bibliográficos
Autores principales: Kalinin, A, Smith, R
Formato: info:eu-repo/semantics/article
Lenguaje:eng
Publicado: 2010
Materias:
Acceso en línea:http://cds.cern.ch/record/1306182
Descripción
Sumario:We pre­sent pre­lim­i­nary re­sults of beam di­ag­nos­tics for the world's first Non-Scal­ing FFAG Ac­cel­er­a­tor 'EMMA'. Amongst other means, a sin­gle-shot/turn-by-turn BPM sys­tem is used, that was first test­ed on the ALICE in­jec­tor. The BPM sys­tem uti­lizes a front-end con­ver­sion of but­ton pick­up sig­nals into flat-top-en­ve­lope 700 MHz bursts, time-do­main mul­ti­plex­ing (in each plane, sig­nals are made spaced by 13.8 ns), and the man­u­fac­ture of both syn­chronous de­tec­tor and ADC clocks di­rect­ly from the beam sig­nal. The sys­tem per­for­mance is dis­cussed; re­sults of beam-based res­o­lu­tion mea­sure­ment are given. First turn beam tra­jec­to­ries fur­thest from the Sep­tum and Kick­er are pre­sent­ed.