1 / 8

B u d k e r I N P

BINP accelerator facilities. B u d k e r I N P. 5 GeV collider. J/  and  physics - lepton precise mass measurement  - physics. VEPP-4M tunnel view. BINP accelerator facilities. B u d k e r I N P. B u d k e r I N P. VEPP-2000 electron-positron collider.

shima
Download Presentation

B u d k e r I N P

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. BINP accelerator facilities B u d k e r I N P 5 GeV collider • J/ and  physics • - lepton precise mass measurement •  - physics VEPP-4M tunnel view

  2. BINP accelerator facilities B u d k e r I N P B u d k e r I N P VEPP-2000 electron-positron collider

  3. BINP accelerator facilities B u d k e r I N P B u d k e r I N P B u d k e r I N P Injection facility damping ring 2 linacs in series (300 MeV for e and 510 MeV for e+e) and a 510 MeV damping ring. A planning efficiency of this facility is around 21010 e+e/second.

  4. BINP accelerator facilities B u d k e r I N P B u d k e r I N P FEL based on the RF accelerator-recuperator Emax = 100 MeV Iav = 50 mA Imax = 100-200 A f = 22.5 MHz, Tpulse = 10-20 ps, Lasing in the therahertz region (~120 m) was achieved in the first stage of FEL (E = 12 MeV) in 2003

  5. Dedicated SR source Siberia-2 Siberia-2 synchrotron light source (Kurchatov Institute, Moscow) completely developed and manufactured turn-key at BINP. It is intended for SR experiments in the 0.1–2000 Ao wavelength range. The facility comprises the dedicated storage ring Siberia-2 with an energy of 2.5. GeV and the Siberia-1 storage ring (E = 450 MeV) which can operate either as SR source in VUV and soft X-Ray range or as the booster injector for Siberia-2.

  6. SR source TNK (Zelenograd) TNK synchrotron light source (Zelenograd) is being completely developed and manufactured turn-key at BINP. It is intended for SR experiments in the 1–2000 Ao wavelength range for the metrology and technology tasks. The facility comprises the dedicated storage ring TNK with an energy of 1.6 GeV and the booster (E = 450 MeV).

  7. Assembly of the accelerators Swiss Light Source(PSI, Switzerland), 1999-2000 Duke University synchrotron, USA, 2002-2006 SAGA synchrotron, Japan, 2004 Metrology Light Source, Germany, 2006

  8. Assembly of the accelerators • CERN (channels, coils, magnets..) • GSI (channels, coils…)

More Related