CYCLOTRONS 2010 - List of Keywords (shielding)

Paper	Title	Other Keywords	Page
MOPCP034	Beam Optics Study of a Fragment Separator for the Planned Rare Isotope Beam Facility in Korea	dipole, quadrupole, optics, ion	123
	W. Wan LBNL, Berkeley, California, USA J.-W. Kim NCC, Korea, Kyonggi, Republic of Korea Y.-H. Park NCC, Goyang, Kyeonggi, Republic of Korea
	A heavy-ion accelerator facility based on linear accelerator is planned in Korea. The facility is designed to provide high-current radioisotope beams with various users. The primary beam energy is in the range of a few hundreds of MeV/u. The major mechanism to produce isotope beams is in-flight fragment separation. The rare isotope beams are to be utilized in the fields of nuclear, material and biomedical sciences. The separator system should have high mass resolution to identify and separate rare isotopes of interest, and also large momentum and angular acceptances for maximal utilization of produced isotopes. We are considering improved beam optics design to realize such a system, where all second order aberrations are corrected. The study has been performed mainly using COSY Infinity, and the results will be presented.

MOPCP106	Beam-Phase Measurement System for HIRFL	cyclotron, controls, ion, extraction	263
	J.H. Zheng, W. Liu, W. Ma, R.S. Mao, Y. Wang, J.X. Wu, Y. Yin IMP, Lanzhou, People's Republic of China
	The beam phase measurement system in HIRFL is introduced. The system had been improved using RF-signal mixing and filtering techniques and noise cancellation method. Therefore,the influence of strongly RF field disturbing signal was eliminated and the signal to noise rate was increased, and a stable and sensitive phase measurement system was developed. The phase history of the ion beam was detected by using 15 set of capacitive pick-up probes installed in the SSC cyclotron. The phase information of the measurement was necessary for tuning purposes to obtain an optimized isochronous magnetic field, where the beam intensity was increased and the beam quality was optimized . The measuremnet results before and after isochronous magnetic field for ion and ion in SSC was given . The phase measurement system was reliable by optimizing isochronous magnetic field test,and the precision reached ±0.5°,the sensitivity of the beam signal measurement was about 10nA as well.

Paper

Title

Other Keywords

Page

MOPCP034

Beam Optics Study of a Fragment Separator for the Planned Rare Isotope Beam Facility in Korea

dipole, quadrupole, optics, ion

123

W. Wan
LBNL, Berkeley, California, USA
J.-W. Kim
NCC, Korea, Kyonggi, Republic of Korea
Y.-H. Park
NCC, Goyang, Kyeonggi, Republic of Korea

A heavy-ion accelerator facility based on linear accelerator is planned in Korea. The facility is designed to provide high-current radioisotope beams with various users. The primary beam energy is in the range of a few hundreds of MeV/u. The major mechanism to produce isotope beams is in-flight fragment separation. The rare isotope beams are to be utilized in the fields of nuclear, material and biomedical sciences. The separator system should have high mass resolution to identify and separate rare isotopes of interest, and also large momentum and angular acceptances for maximal utilization of produced isotopes. We are considering improved beam optics design to realize such a system, where all second order aberrations are corrected. The study has been performed mainly using COSY Infinity, and the results will be presented.

MOPCP106

Beam-Phase Measurement System for HIRFL

cyclotron, controls, ion, extraction

263

J.H. Zheng, W. Liu, W. Ma, R.S. Mao, Y. Wang, J.X. Wu, Y. Yin
IMP, Lanzhou, People's Republic of China

The beam phase measurement system in HIRFL is introduced. The system had been improved using RF-signal mixing and filtering techniques and noise cancellation method. Therefore,the influence of strongly RF field disturbing signal was eliminated and the signal to noise rate was increased, and a stable and sensitive phase measurement system was developed. The phase history of the ion beam was detected by using 15 set of capacitive pick-up probes installed in the SSC cyclotron. The phase information of the measurement was necessary for tuning purposes to obtain an optimized isochronous magnetic field, where the beam intensity was increased and the beam quality was optimized . The measuremnet results before and after isochronous magnetic field for ion and ion in SSC was given . The phase measurement system was reliable by optimizing isochronous magnetic field test,and the precision reached ±0.5°,the sensitivity of the beam signal measurement was about 10nA as well.