CYCLOTRONS 2010 - List of Authors (Noda, K.)

Paper	Title	Page
MOPCP081	Design Study of Magnetic Channel at NIRS-AVF930	215
	S. Hojo, T. Honma, M. Kanazawa, N. Miyahara, M. Muramatsu, K. Noda, Y. Sakamoto, A. Sugiura, K. Tashiro NIRS, Chiba-shi, Japan T. Kamiya, T. Okada, Y. Takahashi AEC, Chiba, Japan
	In the NIRS (National Institute of Radiological Sciences) AVF930 cyclotron, a current magnetic channel has been used for ten years, and the flowing rate of cooling water at longest coil is gradually decreasing. Therefore, the high energy operation such as 70 MeV proton became difficult recently. As the design specification of this magnetic channel is very severe, the flow velocity of cooling water is very fast. The sectional area of the longest coil is expanded in the new design of magnetic channel. Details of the new design and results of calculated magnetic fields are discussed.

MOPCP085	Application of HTS Wire to Magnets	224
	K. Hatanaka, M. Fukuda, T. Yorita RCNP, Osaka, Japan T. Kawaguchi KT Science Ltd., Akashi, Japan K. Noda NIRS, Chiba-shi, Japan Y. Sakemi CYRIC, Sendai, Japan
	We are developing magnets with High Temperature Superconducting (HTS) wire. A scanning magnet was designed, fabricated, and tested for its suitability as beam scanner. After successful cooling tests, the magnet performance was studied using DC and AC currents. In AC mode, the magnet was operated at frequencies of 30-59 Hz and a temperature of 77 K as well as 10-20 Hz and 20 K. The power loss dissipated in the coils was measured and compared with the model calculations. The observed loss per cycle was independent of the frequency and the scaling law of the excitation current was consistent with theoretical predictions for hysteretic losses in HTS wires. A 3 T dipole maget is under fablication now.

Paper

Title

Page

Design Study of Magnetic Channel at NIRS-AVF930

215

S. Hojo, T. Honma, M. Kanazawa, N. Miyahara, M. Muramatsu, K. Noda, Y. Sakamoto, A. Sugiura, K. Tashiro
NIRS, Chiba-shi, Japan
T. Kamiya, T. Okada, Y. Takahashi
AEC, Chiba, Japan

In the NIRS (National Institute of Radiological Sciences) AVF930 cyclotron, a current magnetic channel has been used for ten years, and the flowing rate of cooling water at longest coil is gradually decreasing. Therefore, the high energy operation such as 70 MeV proton became difficult recently. As the design specification of this magnetic channel is very severe, the flow velocity of cooling water is very fast. The sectional area of the longest coil is expanded in the new design of magnetic channel. Details of the new design and results of calculated magnetic fields are discussed.

MOPCP085

Application of HTS Wire to Magnets

224

K. Hatanaka, M. Fukuda, T. Yorita
RCNP, Osaka, Japan
T. Kawaguchi
KT Science Ltd., Akashi, Japan
K. Noda
NIRS, Chiba-shi, Japan
Y. Sakemi
CYRIC, Sendai, Japan

We are developing magnets with High Temperature Superconducting (HTS) wire. A scanning magnet was designed, fabricated, and tested for its suitability as beam scanner. After successful cooling tests, the magnet performance was studied using DC and AC currents. In AC mode, the magnet was operated at frequencies of 30-59 Hz and a temperature of 77 K as well as 10-20 Hz and 20 K. The power loss dissipated in the coils was measured and compared with the model calculations. The observed loss per cycle was independent of the frequency and the scaling law of the excitation current was consistent with theoretical predictions for hysteretic losses in HTS wires. A 3 T dipole maget is under fablication now.