Cyclotrons2016 - List of Keywords (instrumentation)

Paper	Title	Other Keywords	Page
TUP09	Diagnostic Tool and Instrumentation for Handling 50 kW Beam Power	cyclotron, diagnostics, proton, shielding	184
	P. Antonini, E. Boratto, A. Calore, D. Campo, J. Esposito, A. Lombardi, M. Maggiore, M. Poggi, L. Pranovi INFN/LNL, Legnaro (PD), Italy
	The SPES facility is entered the commissioning phase and the 70 MeV cyclotron is delivering the proton beams at the maximum power permitted. The INFN team has developed additional beam instrumentation in order to stop the particles at different power allowing the tuning of the beamline and to check the particles losses during the transport. In particular, a beam dumper able to stop up to 55kW beam power has been constructed and tested as well as the beam loss monitor system by INFN team. Here we present the status of the beam instrumentations supplied by INFN and the results achieved during the test with the beam.
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TUP23	Development of Magnetic Field Measurement Instrumentation for 10 MeV Cyclotron	cyclotron, proton, positron, LabView	218
	H. Namgoong, J.-S. Chai, H.J. Choi, M. Ghergherehchi, D.H. Ha, W.J. Jun, H.S. Kim, J.C. Lee, S.C. Mun SKKU, Suwon, Republic of Korea
	To produce a radio isotope for Positron Emission To-mography (PET), 10 MeV compact Cyclotron was in-stalled at Sungkyunkwan University. This cyclotron had been produced 10 MeV proton beam. For this cyclotron magnet, the magnetic field measurement instrumentation was being developed. The hall probe sensor was used for field measurement. This hall probe sensor moves radial direction and angular direction by mechanically. The Magnetic field measurement instrumentation measures the field in the range of 5 mm for radial direction and 1 degree for angular direction. Magnetic field was measured with and without cooling. Magnetic field was carried with 4 Gauss without cooling and 0.1 Gauss with cooling. Our developed magnetic field measurement instrumentation has 0.1 Gauss of an error and 0.01 Gauss of resolution over 9 hours.
	Poster TUP23 [14.585 MB]
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Paper

Title

Other Keywords

Page

TUP09

Diagnostic Tool and Instrumentation for Handling 50 kW Beam Power

cyclotron, diagnostics, proton, shielding

184

P. Antonini, E. Boratto, A. Calore, D. Campo, J. Esposito, A. Lombardi, M. Maggiore, M. Poggi, L. Pranovi
INFN/LNL, Legnaro (PD), Italy

The SPES facility is entered the commissioning phase and the 70 MeV cyclotron is delivering the proton beams at the maximum power permitted. The INFN team has developed additional beam instrumentation in order to stop the particles at different power allowing the tuning of the beamline and to check the particles losses during the transport. In particular, a beam dumper able to stop up to 55kW beam power has been constructed and tested as well as the beam loss monitor system by INFN team. Here we present the status of the beam instrumentations supplied by INFN and the results achieved during the test with the beam.

Export •

reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)

TUP23

Development of Magnetic Field Measurement Instrumentation for 10 MeV Cyclotron

cyclotron, proton, positron, LabView

218

H. Namgoong, J.-S. Chai, H.J. Choi, M. Ghergherehchi, D.H. Ha, W.J. Jun, H.S. Kim, J.C. Lee, S.C. Mun
SKKU, Suwon, Republic of Korea

To produce a radio isotope for Positron Emission To-mography (PET), 10 MeV compact Cyclotron was in-stalled at Sungkyunkwan University. This cyclotron had been produced 10 MeV proton beam. For this cyclotron magnet, the magnetic field measurement instrumentation was being developed. The hall probe sensor was used for field measurement. This hall probe sensor moves radial direction and angular direction by mechanically. The Magnetic field measurement instrumentation measures the field in the range of 5 mm for radial direction and 1 degree for angular direction. Magnetic field was measured with and without cooling. Magnetic field was carried with 4 Gauss without cooling and 0.1 Gauss with cooling. Our developed magnetic field measurement instrumentation has 0.1 Gauss of an error and 0.01 Gauss of resolution over 9 hours.

Poster TUP23 [14.585 MB]

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reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)