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New Tandetron Laboratory at NPI V ladimír Hav ránek, Vladimír Hnatowicz,

New Tandetron Laboratory at NPI V ladimír Hav ránek, Vladimír Hnatowicz, Anna Macková,Vratislav Peřina, Jiří Vacík, Václav Voseček, Jiří Novotný, Jiří Bočan Nuclear Physics Institute ASCR , 250 68 Řež u Pra hy. Important Milestones. 1964 3.5(5)MV Van de Graaff started operate

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New Tandetron Laboratory at NPI V ladimír Hav ránek, Vladimír Hnatowicz,

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  1. New Tandetron Laboratory at NPI Vladimír Havránek, Vladimír Hnatowicz, Anna Macková,Vratislav Peřina, Jiří Vacík, Václav Voseček, Jiří Novotný, Jiří Bočan Nuclear Physics Institute ASCR, 250 68 Řež u Prahy V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  2. Important Milestones • 1964 3.5(5)MV Van de Graaff started operate • 2005 3MV Tandetron 4130MC from HVEE installed (supported by IAEA and ASCR) V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  3. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  4. Odkrytý 1985 +

  5. Ion lines at the old VdG accelerator V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  6. New experinmental target chamber for simultaneous IBA V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  7. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  8. Present-day research activities at VdG • Investigation of thin surface layers and multilayers with distinctive mechanical, electrical, magnetical, optical, chemical and biological properties, proceses of its fabrication • Atmospherical and combustion aerosols research, testing of new reference materials, analysis of biological and environmental samples • Comercial, industry and technological research activities V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  9. VdG 2004 V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  10. Construction of the new Tandetron hall autumn– 2004 V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  11. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  12. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  13. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  14. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  15. Tandetron hall summer 2005 V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  16. Transport of Tandetroninto new hall1.9.2005 V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  17. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  18. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  19. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  20. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  21. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  22. November 2005 V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  23. Experimental lines • Ion Channeling + RBS (NEC) 2006 (-30deg) • High Energy Implantation line + RBS+ TOF ERDA (NEC, HVEE, Vacuum Praha, INP) 2006 (-10deg) • Multipurpose for Simultaneous PIXE, PIGE, RBS, PESA and other Experimets (Vacuum Praha, INP) 2007 (+30deg) • Ion Microprobe (Oxford Microbeams) 2008 (+10deg) V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  24. Summer 2006 PIXE, PIGE, RBS, PESA (2007) Ion Chanelling (2006) RBS TOF-ERDA Implantation Microbeam (2008) V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  25. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  26. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  27. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  28. High Energy Implantation Line • Carrousel for 12 samples of 2,5 inch in diameter. • Step motor control of the carrousel movement • Maximum energy 2.5MeV per charge state. • For Si4+ it is 10MeV, for H+ 2.5MeV. The lowest available energy is about 300keV • The typical implanted doses range from 1x108 to 1x1016 ions/cm2. V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  29. Some examples of implanted ions * Small scan area V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  30. TOF-ERDA Start detector The TOF-ERDA spectrometer set into operation in 2006 with support and cooperation of Rossendorf group., The system consist of thin carbon foil start detector and particle energy detector, which also provides the stop time signal. In the near future the second stop detector will be add. Example of TOF-ERDA spectrometer tests. Spectra of LiF (200 nm) deposited on glassy carbon. 15,4 MeV Cu6+ (Tv =2,2 MV) V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  31. RBS-Channeling The RBS-Channelling setup is only equipment which was fully supplied by external vendor. It was bought from NEC company USA and recently installed at -30 deg. beam line. The target chamber is equipped with fine goniometer with five degrees of freedom (x,y,z,,) and two charge particle detectors. Test experiments are now in progress. There is also a possibility to add additional x or -ray detector, so the PIXE or PIGE channelling experiments can be performed in future. The setup will be used for routine RBS-channelling and RBS measurements. Channeling software V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  32. Proposed microbeam line V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

  33. Thank you for your attention Vltava River in Rez V.Havránek - New 3MV Tandetron Laboratory at NPI Rez

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