Two linear trap devices for particle beam manipulation (including emittance reduction, cooling, control of instabilities, dust dynamics, and non-neutral plasmas) are here presented, namely, a radiofrequency quadrupole (RFQ) beam cooler and a compact Penning trap with a dust injector. Both beam dynamics studies by means of dedicated codes including the interaction of the ions with a buffer gas (up to 3 Pa pressure), and the electromagnetic design of the RFQ beam cooler are reported. The compact multipurpose Penning trap is aimed to the study of multispecies charged particle samples, primarily electron beams interacting with a background gas and/or a micrometric dust contaminant. Using a 0.9 T solenoid and an electrode stack where both static and RF electric fields can be applied, both beam transport and confinement operations will be available. The design of the apparatus is presented.
Plasma-beam traps and radiofrequency quadrupole beam coolers / M. Maggiore, M. Cavenago, M. Comunian, F. Chirulotto, A. Galatà, M. De Lazzari, A.M. Porcellato, C. Roncolato, S. Stark, A. Caruso, A. Longhitano, F. Cavaliere, G. Maero, B. Paroli, R. Pozzoli, M. Romé. - In: REVIEW OF SCIENTIFIC INSTRUMENTS. - ISSN 0034-6748. - 85:2(2014 Feb), pp. 02B909.1-02B909.3. [10.1063/1.4830357]
Plasma-beam traps and radiofrequency quadrupole beam coolers
F. Cavaliere;G. Maero;B. Paroli;R. PozzoliPenultimo
;M. RoméUltimo
2014
Abstract
Two linear trap devices for particle beam manipulation (including emittance reduction, cooling, control of instabilities, dust dynamics, and non-neutral plasmas) are here presented, namely, a radiofrequency quadrupole (RFQ) beam cooler and a compact Penning trap with a dust injector. Both beam dynamics studies by means of dedicated codes including the interaction of the ions with a buffer gas (up to 3 Pa pressure), and the electromagnetic design of the RFQ beam cooler are reported. The compact multipurpose Penning trap is aimed to the study of multispecies charged particle samples, primarily electron beams interacting with a background gas and/or a micrometric dust contaminant. Using a 0.9 T solenoid and an electrode stack where both static and RF electric fields can be applied, both beam transport and confinement operations will be available. The design of the apparatus is presented.
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