Status of KASKA

1. Status of KASKA (Kashiwazaki-Kariwa Nuclear Power Station) F.Suekane RCnS, Tohoku Univ. Japan suekane@awa.tohoku.ac.jp @ Double CHOOZ collaboration meeting 2006.06.06-08 F.Suekane, KASKA

2. Outline Brief introduction of KASKA experiment R&D status Fund requesting status Summary F.Suekane, KASKA

3. KASKA Members Niigata University: N.Tamura, M.Tanimoto, H.Miyata, H.Nakano T.Kawasaki, M.Katsumata, T.Iwabuchi, M.Aoki, N.Nakajima, K.Sakai Tohoku University: F.Suekane, Y.Sakamoto, S.Tsuchiya, H.Tabata Tokyo Metropolitan University: T.Sumiyoshi, H.Minakata, O.Yasuda , K.Sakuma Tokyo Institute of Technology: M.Kuze, K.Nitta, H.Furuta, J.Maeda, Y.Funaki Kobe University: T.Hara KEK: N.Ishihara, H.Sugiyama Miyagi University of Education: Y.Fukuda, Akiyama Hiroshima Institute of Technology: Y.Nagasaka Osaka University: Nomachi ~30people F.Suekane, KASKA

4. Kashiwazaki-Kariwa NPS 7 powerful reactors (5BWR+2ABWR) cluster into two groups World's Highest Power P=24.3GWth =Strongest n luminosity >2010 F.Suekane, KASKA

5. Can return to L=1.3km ~1.6km ~0.35km 24.3GW ~50m 150m 6ton x 2 2x6ton KASKA-q13 Geometry L=1.6km F.Suekane, KASKA

6. Detector & Shaft Hole F.Suekane, KASKA

7. Structure of KASKA Detectoris similar to DCHOOZ's F.Suekane, KASKA

8. Error efficiency related + n flux + BKG Statistic error = 0.4% with 3years run F.Suekane, KASKA

9. Expected Sensitivity (rate only analysis) SK Dm2 10x better sensitivity than current CHOOZ limit F.Suekane, KASKA

10. R&D *Boring study at near-B site * Prototype detector * Low BKG PMT * Electronics development * LS developments * Detector and Shaft hole design study * Calibration system * Cosmic-ray tracking system * Design and tests of acrylic vessels F.Suekane, KASKA

11. Gd-LS Gd-LS * Test of g-catcher. * Am/Be ne like signal. * Cosmic-ray spallation BKG. ne detection at research reactor. *Magnetic shield test * MC development Prototype Detector 0.9m3 Am/Be Sources (4.4MeVg+n) F.Suekane, KASKA

12. 60cm thick spherical buffer layer d 2.2MeV peak preliminary preliminary Gd 8MeV peak Ed Data Simulation Need to tune the simulation. F.Suekane, KASKA

13. 2006/8~ Prototype @ a research reactor Joyo Research Reactor, 140MW Fast Reactor Frequent ON/OFF ~150  reaction/day ( flux ~KASKA near) BKG data Ed • Window (BKG~50/day) 25m Ep after some improvements data taken with very poor g shields no cosmic-ray veto Demonstrate n detection capability First fast reactor n detection (Pu origin) F.Suekane, KASKA

14. Boring Study @ near-B site (2004.10~11) Reactor Building #6 Reactor Building #5 • Study of • Geology • Cosmic-ray BKG • g-ray BKG • at real location and depth • & • Real experience to • work in the reactor site 70m depth BKG measurement counting hut scaffold tower for boring machine F.Suekane, KASKA

15. . data MC g-ray BKG Cosmic-ray BKG data MC Preliminary Preliminary E(KeV) Tuned MC with 20% accuracy 238U/232Th/40K=2.1/6.3/1.5ppm F.Suekane, KASKA

16. Geology -> shaft hole design F.Suekane, KASKA

17. Liquid Scintillators Region-I(-target): PaloVerde Type BC521:PC:Tetradecane=20:20:60v% Gd=0.1%. Light Output~50% Anthracene Region-II(-catcher): PC:TD=15:85% + PPO+bis-MSB LO~50% Anthracene Region-III(Buffer Oil): Paraffin Oil(+PPO LO~5%Anth. optional) F.Suekane, KASKA

18. LS long term stability tests(preliminary) KASKA candidate T=20deg BC521 : Pseudocumen(PC) : Tetradecane(TD) = A ‥ 20% : 20% : 60% B ‥ 30% : 10% : 60% C ‥ 20% : 10% : 70% T=30deg No aging at room temp. for 240days T=40deg F.Suekane, KASKA

19. 1pe signals PMT Hamamatsu 10"PMT TTS=2.5ns ~300/detector 10% coverage Low BKG Glass It is possible to make10"PMT glass as low BKG. F.Suekane, KASKA

20. Issue of Geo-Magnetic Field (1) 11cm thick iron tank (2) Compensation Coil (3) high- metal shield on each PMT • (3) works well for prototype detector Issue of cosmic-ray saturation ( to measure shower energy) • Install small PMTs to measure cosmir-ray & shower energy F.Suekane, KASKA

21. Electronics * Full digital treatment using FADC & FPGA * Bank system to kill deadtime * Quick recovery from saturation Test module F.Suekane, KASKA

22. Cosmic-ray tracker To estimate long-life spallation Backgrounds such as 9Li. * Liquid Scintillator base * Plastic Scintillator base Cosmic-ray tracker F.Suekane, KASKA

23. Beam test of plastic scintillator F.Suekane, KASKA

24. Calibration: Wire manipulation (between PMTs) hook hook Source weight Mechanical Test Test at prototype (planning) F.Suekane, KASKA

25. Designing WorkWith KEK Engineering Div. F.Suekane, KASKA

26. Inner acrylic vessel Outer acrylic vessel F.Suekane, KASKA

27. 1/2 scale inner acrylic dorm. =90cm, t=1cm) -> manufacturing method. -> Test of achievable precision F.Suekane, KASKA

28. LS compatibility acceleration test (35 deg) of acrylic joint 1day 1week 1month Some incompatibility was Observed. Now we think we know how to avoid this effect After soak Before soak F.Suekane, KASKA

29. Construction sequence F.Suekane, KASKA

30. LoI will appear in ArXiv soon. ~80 pages F.Suekane, KASKA

31. Funding Issue 2005 Funding schemes: possible 3 ways *Budget request as University Project * Grant in Aid for Scientific Research 　 * Support from KEK JFY (Apr.-Mar.) 2006 1st review [End of August] (If it fails, we would like to join to DCHOOZ here) Now As DCHOOZ request(Sep.-Oct.) We would like prepare the request form from now. 2007 If KEK decides to support us, we may be able to start before next JFY starts. If GASR is approved the fund will be available from here. F.Suekane, KASKA

32. Summary KASKA uses highest reactor power, optimum baseline and can measure sin22q13 with 10 times better sensitivity of current limit. (2) R&D has been progressing. Now struggling for funding. We will know in the end of August if our final trial fails. (4) In that case, we would like to join DCHOOZ and do next budget request for DCHOOZ. If the request is <$5M, the probablity of approval is high. (5) In any case we would like to start to plan the next budget request as DCHOOZ. F.Suekane, KASKA