Highlights from

1. Highlights from CLIC Meetings 15/08/2008 Ofelia Capatina TS/MME

2. NANOBEAM • Advanced Beam Dynamics Workshop • Nanometre-Size Colliding Beams Nanobeam2008 at BINP. Real landscape at Nanobeam2005: The Byodoin of Uji. Real landscape at Nanobeam2002: The chateau of Gruyere. 2 O. Capatina, 15/08/08

3. NANOBEAM 08 • Why me? • Involved in CLIC Stabilization studies • Mechanical Engineer point of view • Nanometer for a mechanical engineer = we have to reset our minds to try to imagine • Micron for a beam physicist (Daniel) = coarse movement O. Capatina, 15/08/08

4. NANOBEAM 08 • Novosibirsk – capital of Siberia • The third largest city in Russia after Moscow and Saint-Petersburg • 1,397,000 people (in 2006) • 500 km² • Founded in 1893 • Geographical Reference System: 55°01′N 82°56′E • Time zone: UTC+6 (in winter), UTC+7 (in summer) O. Capatina, 15/08/08

5. One of Moscow Internal Flights Airport O. Capatina, 15/08/08

6. Flying to Novosibirsk O. Capatina, 15/08/08

7. Lenin place – centre of Novosibirsk O. Capatina, 15/08/08

8. Participants ~ 30 participants / ~ 100 the previous years O. Capatina, 15/08/08

9. Program • All information at http://ssrc.inp.nsk.su/NB08/ • Program O. Capatina, 15/08/08

10. Program O. Capatina, 15/08/08

11. Program O. Capatina, 15/08/08

12. Program O. Capatina, 15/08/08

13. Introduction • Review of Nanobeam 2005, by Junji Urakawa (KEK) 2002-LC 2005-LC O. Capatina, 15/08/08

14. Introduction • ILC Beam Delivery System and ATF2, by Andrei Seryi (SLAC) O. Capatina, 15/08/08

15. at KEK ATF2 Scaled down model of ILC final focus The ATF international collaboration include more than 200 researchers and the ATF MOU is signed by 20 institutions from all over the world

16. Scaled down model of ILC final focus (local chromatic correction) ATF2 – model of ILC BDS ATF2 goals (A) Small beam sizeObtain sy ~ 35nmMaintain for long time (B) Stabilization of beam center Down to < 2nm by nano-BPM Bunch-to-bunch feedback of ILC-like train

17. ATF2 construction – rapid progress in 2007 August – December Assembly hall before construction Assembly hall emptied for construction Photos: Nobu Toge Construction of reinforced floor Construction of shielding

18. ATF2 construction – January 2008 The last regular quadrupole is going to the destination ~20 sets of supports, movers & quads were installed in January. R.Sugahara et al

19. Advanced beam instrumentation at ATF2 • BSM to confirm 35nm beam size • nano-BPM at IP to see the nm stability • Laser-wire to tune the beam • Cavity BPMs to measure the orbit • Movers, active stabilization, alignment system • Intratrain feedback, Kickers to produce ILC-like train IP Beam-size monitor (BSM) (Tokyo U./KEK, SLAC, UK) Laser-wire beam-size Monitor (UK group) Laser wire at ATF Cavity BPMs with 2nm resolution, for use at the IP (KEK) Cavity BPMs, for use with Q magnets with 100nm resolution (PAL, SLAC, KEK)

20. ATF2 schedule

21. Conclusion • Design of Beam Delivery system for ILC was produced by international design team • Critical subsystems (Final Doublet, Crab cavities) are being prototyped • Complex systems (Interaction Region, Beam dumps) are being designed in details • BDS System test is being prepared at the ATF2 test facility

22. Lasers and Linear Colliders • Laser-Plasma Accelerators: Production Of High-Current Ultra-Short e-Beams, Beam Control and Radiation Generation, by Igor Kostyukov (IAP/RAS, Nizhny Novgorod) O. Capatina, 15/08/08

23. Lasers and Linear Colliders • Laser-Plasma Accelerators: Production Of High-Current Ultra-Short e-Beams, Beam Control and Radiation Generation, by Igor Kostyukov (IAP/RAS, Nizhny Novgorod) O. Capatina, 15/08/08

24. Lasers and Linear Colliders O. Capatina, 15/08/08

25. ATF2 Project Meetings • Many presentations about ATF2 status • Installation status of magnet tables, magnets, DC cabling, water pipes, shields, beam dump, power supplies, QBPM, BSM (Shintake Monitor), Magnet movers • Software • Options to provide superconducting FF magnets at ATF2 • Commissioning strategy • How can remote collaborators access to ATF online data? O. Capatina, 15/08/08

26. Nanometer beams and stability • BINP Capacitive And Ultrasonic Hydrostatic Level Sensors For Slow Ground Motion Study And Precise Accelerator Alignment, Andrey Chupyra (BINP) O. Capatina, 15/08/08

27. Nanometer beams and stability • BINP Capacitive And Ultrasonic Hydrostatic Level Sensors For Slow Ground Motion Study And Precise Accelerator Alignment, Andrey Chupyra (BINP) O. Capatina, 15/08/08

28. Nanometer beams and stability • Techniques to approach the requirements of CLIC stability, by O. Capatina • Study Of Vibrations And Stabilization At The Sub-Nanometre Scale For CLIC Final Doublets, by B. Bolzon (LAPP) • Monalisa status, by David Urner (University of Oxford) • See presentation of Claude Hauviller during CLIC meeting on 30th of May 2008 • Study of supports for ATF-2 final doublets, by B. Blozon (LAPP) O. Capatina, 15/08/08

29. Nanometer beams and stability O. Capatina, 15/08/08

30. Advanced e+ source // Crystal channeling • Laser Compton based positron source, by Tsunehiko Omori (KEK) O. Capatina, 15/08/08

31. Advanced e+ source // Crystal channeling • Laser Compton based positron source, by Tsunehiko Omori (KEK) O. Capatina, 15/08/08

32. Advanced e+ source // Crystal channeling • Laser Compton based positron source, by Tsunehiko Omori (KEK) O. Capatina, 15/08/08

33. Advanced e+ source // Crystal channeling • Present status of KEKB positron source, Takuya Kamitani (KEK) O. Capatina, 15/08/08

34. Advanced e+ source // Crystal channeling • Present status of KEKB positron source, Takuya Kamitani (KEK) O. Capatina, 15/08/08

35. Advanced e+ source // Crystal channeling • Present status of KEKB positron source, Takuya Kamitani (KEK) O. Capatina, 15/08/08

36. Advanced e+ source // Crystal channeling • Present status of KEKB positron source, Takuya Kamitani (KEK) O. Capatina, 15/08/08

37. Advanced e+ source // Crystal channeling • Crystal channeling for electron/position beams, Tohru Takahashi Takahashi (Hiroshima University) O. Capatina, 15/08/08

38. Advanced e+ source // Crystal channeling • Crystal channeling for electron/position beams, Tohru Takahashi Takahashi (Hiroshima University) O. Capatina, 15/08/08

39. Advanced e+ source // Crystal channeling • Crystal channeling for electron/position beams, Tohru Takahashi Takahashi (Hiroshima University) O. Capatina, 15/08/08

40. Advanced e+ source // Crystal channeling • Crystal channeling for electron/position beams, Tohru Takahashi Takahashi (Hiroshima University) O. Capatina, 15/08/08

41. BINP facilities visit • Budker Institute of Nuclear Physics • Founded in 1958 as part of the Siberian Branch of the USSR Academy of Sciencies • Founder Andrei Mikhailovich Budker (1918 - 1977) • BINP activities: • Electron-electron and electron-positron colliders • Physics of high-energy particles and atomic nucleus • Physics of accelerators • Plasma physics and controlled thermonuclear fusion • Generation and application of synchrotron radiation beams • High-power free electron lasers • Industrial electron accelerators • Theoretical physics O. Capatina, 15/08/08

42. BINP facilities visit • 1964 – the first electron-electron collisions registered at BINP at the first electron-electron collider VEP-1 O. Capatina, 15/08/08

43. BINP facilities visit • Visit at VEPP-2000: • Luminosity up to 1032 cm−2 s−1 on energy up to 2×1 GeV • To study hadron production in electron-positron collisions O. Capatina, 15/08/08

44. BINP facilities visit • VEPP-2000: O. Capatina, 15/08/08

45. BINP facilities visit • VEPP-2000 control room O. Capatina, 15/08/08

46. BINP facilities visit • “Golden Hadron” awarded to BINP by CERN for particularly high-quality production of 360 dipole magnets and 185 quadrupole magnets for the LHC's proton beam transfer lines O. Capatina, 15/08/08

47. Banquet O. Capatina, 15/08/08

48. Banquet Russian dictum “Drinking without toasts is alcoholism” … so we had a lot of toasts O. Capatina, 15/08/08

49. Conclusions • Very interesting visit • Thank you for giving me this opportunity O. Capatina, 15/08/08