FEL2005 :: List of Authors

Author Index: A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

Tsuru, R.

Paper	Title	Page
MOPP018	Status of R&D for SCSS Project	75
	T. Tanaka RIKEN Spring-8, Hyogo Y. Asano JAEA, Ibaraki-ken H. Baba, T. Bizen, Z. Chao, H. Ego, S. Eguchi, S. Goto, T. Inagaki, S. Inoue, D. Iwaki, K. Kase, Y. Kawashima, H. Kimura, S. Kojima, T. Kudo, N. Kumagai, X. Marechal, S. Matsui, T. Ohata, K. Onoe, Y. Otake, T. Seike, K. Shirasawa, N. Shusuke, T. Takagi, T. Takashima, K. Tamasaku, R. Tanaka, K. Togawa, R. Tsuru, S. Wu, M. Yabashi, S. Yoshihiro JASRI/SPring-8, Hyogo T. Fukui Kyoto IAE, Kyoto T. Hara, T. Ishikawa, H. Kitamura, T. Shintake RIKEN Spring-8 Harima, Hyogo H. Matsumoto KEK, Ibaraki S. Takahashi LNS, Sendai
	Funding: Representing the SCSS project team SCSS, an acronym of "SPring-8 Compact SASE Source", is an X-ray FEL project under planning to be build at the SPring-8 site. R&Ds for accelerator components such as the pulsed-DC electron gun, C-band main linac, and in-vacuum short period undulator have been performed and almost completed. Before construction of the X-ray FEL facility, a prototype accelerator with the electron energy of 250 MeV is being built to demonstrate the concept of SCSS. In this presentation, status of the R&Ds for each accelerator component will be presented together with an overview of the 250-Mev prototype accelerator.

TUOC001	In-Vacuum Undulators	370
	T. Tanaka RIKEN Spring-8, Hyogo T. Bizen, D. Iwaki, X. Marechal, T. Seike, R. Tsuru JASRI/SPring-8, Hyogo T. Hara, H. Kitamura RIKEN Spring-8 Harima, Hyogo
	In-vacuum undulators are now widely used in lots of SR facilities to provide highly-brilliant hard x-rays not only in large-scale facilities such as SPring-8, ESRF and APS, but also in medium-scale facilities with an electron energy up to 3 GeV. In addition, the SCSS (SPring-8 Compact SASE Source) project is going to adopt the in-vacuum undulator not only for reducing the electron energy to achieve angstrom X-ray FEL but also for commissioning and alignment of components in the undulator line that takes advantage of variable vacuum gap (physical aperture for the electron beam). In this talk, overview of technologies required for development of the in-vacuum undulator will be presented together with practical examples. In addition, ongoing R&Ds at SPring-8 (cryogenic undulator, in-situ field measurement system) will be described in brief.