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Sano, Y.

Paper Title Page
MOPEA008 Multiple-energy Operation with Quasi-DC Extension of Flattops at HIMAC 79
 
  • Y. Iwata, T. Furukawa, K. Mizushima, K. Noda, T. Shirai, E. Takada, E. Takeshita
    NIRS, Chiba-shi
  • T. Fujimoto, T. Kadowaki, Y. Sano, H. Uchiyama
    AEC, Chiba
 
 

Tumor therapy using energetic carbon ions, as provided by the HIMAC, has been performed since June 1994, and more than 5000 patients were treated until now. With the successful clinical results over more than ten years, we are constructing a new treatment facility. The new facility would have three treatment rooms; two of them have both horizontal and vertical fixed-irradiation-ports, and the other has a rotating-gantry-port. For all the ports, a scanning irradiation method is applied. The new facility is constructed in conjunction with the HIMAC, and heavy-ion beams will be provided by the HIMAC accelerators. To fulfill requirements for the scanning irradiation, we proposed multiple-energy operation with the quasi-DC extension of a flat top. With this operation, the beam energy can be successively varied within a single synchrotron-cycle, and therefore no energy degrader or the range shifter is required. The beam acceleration and extraction tests of the multiple-energy operation were successfully made. We will present the development of this operation as well as results of the beam acceleration tests.

 
TUOCRA01 New Treatment Research Facility Project at HIMAC 1324
 
  • K. Noda, S. Fukuda, T. Furukawa, T. Himukai, T. Inaniwa, Y. Iwata, N. Kanematsu, K. Katagiri, A. Kitagawa, S. Minohara, S. Mori, T.M. Murakami, M. Muramatsu, S. Sato, T. Shirai, E. Takada, Y. Takei, E. Takeshita
    NIRS, Chiba-shi
  • T. Fujimoto, Y. Sano
    AEC, Chiba
 
 

Based on more than ten years of experience of the carbon cancer therapy with HIMAC, we have proposed a new treatment facility for the further development of the therapy with HIMAC. This facility will consist of three treatment rooms: two rooms equipped with horizontal and vertical beam-delivery systems and one room with a rotating gantry. For the beam-delivery system of the new treatment facility, a 3D hybrid raster-scanning method with gated irradiation with patient's respiration has been proposed. A R&D study has been carried out toward the practical use of the proposed method. In the R&D study, we have improved the beam control of the size, the position and the time structure for the proposed scanning method with the irradiation gated with patient's respiration. Further, owing to the intensity upgrade of the HIMAC synchrotron, we can successfully extend the flattop duration, which can complete one fractional irradiation with one operation period. The building construction of the new treatment facility will be completed at March 2010 and treatment of 1st patient is scheduled at March 2011. We will report the recent progress on the new treatment facility project at HIMAC.

 

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