1. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 1 Resent Progress at KEK N. KIMURA, T. TOMARU, Y. AJIMA, T. KUME, A. YAMAMOTO, K. TSUCHIYA and T. TAUCHI

2. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 2 OUTLINE Progress of the cryostat design work at KEK

3. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 3 3 Proposed Schedule (Construction & Installation) We are here! Design work is stopped in this moment. Budget for R&D is not decided yet!

4. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 4 Design work of the Connection Box at KEK

5. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 5

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8. 8 Design work for the connection box is stopped in KEK. The budget including R&D work in KEK is not fixed yet. I would like to changed to detailed design work, but………. KEK would like to discuss the interface part between the magnet cryostat and the connection box with BNL for the detailed design work. And KEK wants to confirm the pressure vessel design by BNL keeping Japanese High Pressure Gas Regulations. Vacuum flanges such as ICF Flange are not accepted under the regulation in Japan. Open to Discussion

9. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 9 Open to Discussion (cont.) When does bus bar design fix in the magnet cryostat? KEK want to know BNL’s bus bar design to fix ours. When can we discuss interface part to fix final design? KEK want to fix ours design as soon as possible. KEK would like to know that BNL have contacted with TUV to clear High Pressure Gas Regulation.

10. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 10 Appendix

11. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 11 Cooling scheme for 4K connection box at ATF2 Two 1.3W/4.2K Plus tube type cryo- coolers use as re-condensation cooler Heat loads by Current leads into 4K level 300A x 4 leads (0.6 W, 0.15W/lead) by HTC conductor 20A x 10 leads (Total 0.56 W, 0.056W/lead) by Low RRR Cu One 1.3W/4.2K Plus tube type cryocooler as 20K cooler KEK’s design responsibility Three Plus tube type cryocooler will be mounted with low vibration mounting Tubes for pre-cooling and thermo siphon mode

12. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 12 Beam direction Shintake monitor 4K connection box For working and walking space Proposed set up plan in the tunnel at ATF2 connection tube Bellows part This is good solution at ATF2! Advantage Three To adopt the BOX with huge of mass of shield block, it will be reduced mechanical resonances. Advantage one. Easy maintenance of cryogenics part due to the outside of radiation control area! Advantage Two. It easy to supply Lhe for pre-cooling and recovery after quench.

13. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 13 Infrastructures at ATF2 LHe supplyVery limited (supplied only by dewar, from Cryogenics Science Center) - It could be supplied for pre-cooling and re-cover for quench. Cryogenics facility None Space for Liquefieraround ATF?? GHe recovery lineYes Human resource for cryogenics operationNone Power supplies for SC magnetsNone We would like to propose our plan which can be operated under limited infrastructures at ATF2!! and can be consistent with BNL’s magnet cooling design.

14. Cryogenics Science Center/KEK (Nobuhiro KIMURA –20/April./2010 at ATF2 meeting ) 14 Proposed the cryogenics system at KEK Cooling scheme @ ATF2 – “A re-condensation cooling type” with low vibration Cryo-coolers – Vibration Control -> Mixture of LCGT scheme & SCGR scheme