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Development of accelerator technology in Poland Impact of European CARE and EuCARD programs

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The development of accelerator technology in Poland is strictly combined with the cooperation with specialist accelerator centers of global character, where the relevant knowledge is generated, allowing to build big and modern machines. These are relatively costly undertakings of interdisciplinary character. Most of them are financed from the local resources. Only the biggest machines are financed commonly by many nations like: LHC in CERN, ILC in Fermi Lab, E-XFEL in DESY. A similar financing solution has to be implemented in Poland, where a scientific and political campaign is underway on behalf of building two big machines, a Polish Synchrotron in Kraków and a Polish FEL in Świerk. Around these two projects, there are realized a dozen or so smaller ones.
Rocznik
Strony
239--251
Opis fizyczny
Bibliogr. 72 poz., rys.
Twórcy
  • Warsaw University of Technology
Bibliografia
  • 1. D. A. Edwards, H. J. Syphers: An introduction to the physics of high energy accelerators. Wiley, 1993.
  • 2. M. Reiser: Theory and Design of Charged Particle Beams. Wiley, 1994.
  • 3. H. Padamsee, J. Knobloch, T. Hays: RF superconductivity for accelerators. Wiley, 1998.
  • 4. A. W. Chao, M. Tigner (editors): Handbook of Accelerator Physics and Engineering. World Scientific, 1999.
  • 5. G. Guignard (editor): [The CLIC Study Team], A 3 TeV e+/e- Linear Collider Based on CLIC Technology. CERN Report, July 2000.
  • 6. E. J. N. Wilson: An introduction to Particle Accelerators, Oxford. 2001.
  • 7. R. Brinkman, et al. (editors): TESLA Technical Design Report. DESY, March 2001.
  • 8. K. Wille, J. McFall: The Physics of Particle Accelerators: An Introduction. Oxford, 2001.
  • 9. R. C. Davidson: Physics of Intense Charged Particle Beams in High Energy Accelerators. World Scientific, 2001.
  • 10. M. G. Minty, F. Zimmerman: Measurements and Control of Charged Particle Beams. Springer, 2003.
  • 11. S. Y. Lee: Accelerator Physics. World Scientific, 2004.
  • 12. S. I. Tzenow: Contemporary Accelerator Physics. World Scientific, 2004.
  • 13. G. S. Nusinovich: Modern Microwave and Millimeter-Wave Power Electronics. Wiley, 2005.
  • 14. S. E. Tsimrin g: Electron Beams and Microwave Vacuum Electronics. Wiley, 2006.
  • 15. H. Widemann: Particle Accelerator Physics, Springer, 2007.
  • 16. A. Sessler: Engines of Discovery: A Century of Particle Accelerators. World Scientific, 2007.
  • 17. ILC Reference Design Report, CERN, Fermilab, KEK, DESY, August 2007.
  • 18. T. P. Wangler: RF linear accelerators. Wiley, 2-nd edition, 2008.
  • 19. A. Chao, W. Chou: Reviews of Accelerator Science and Technology, vol. 1, World Scientific, 2008.
  • 20. CERN [cern.ch];
  • 21. Fermilab [fnal.gov];
  • 22. SLAC [slac.stanford.edu];
  • 23. ORNL [ornl.gov];
  • 24. Jefferson Lab [jlab.org];
  • 25. DESY [desy.de];
  • 26. INFN [infn.it];
  • 27. IN2P3 [in2p3.fr];
  • 28. KEK [kek.jp];
  • 29. PCPS [synchrotron.pl];
  • 30. POLFEL [polfel.pl];
  • 31. ESGARD [esgard.lal.in2p3.fr];
  • 32. IPJ [ipj.gov.pl];
  • 33. IFJ PAN [ifj.edu.pl];
  • 34. SLCJ UW [slcj.uw.edu.pl];
  • 35. ECFA - European Committee for Future Accelerators [committees2.web.cern.ch/Committees2/ECFA];
  • 36. ICFA - International Committee for Future Accelerators [fnal.gov/directorate/icfa];
  • 37. IUPAP [iupap.org];
  • 38. ACFA - Asian Committee for Future Accelerators [acfahep.kek.jp];
  • 39. PAA [www.paa.gov.pl];
  • 40. PAN [pan.pl];
  • 41. PTF [ptf.fuw.edu.pl];
  • 42. PTPS [synchrotron.org.pl];
  • 43. PTN [ptn.nuclear.pl];
  • 44. EPAC [epac.web.cern.ch/EPAC/Welcome.html], [epacO8.org];
  • 45. ICALEPCS [icalepcs.org];
  • 46. JACOW [accelconf.web.cern.ch], [jacow.org];
  • 47. INDICO [indico.cern.ch];
  • 48. C0RDIS-FP7 [cordis.europa.eu/fp7];
  • 49. EU-JRC [www.jrc.ec.europa.eu];
  • 50. EURATOM [cordis.europa.eu/fp7/euratom];
  • 51. ESFRI [cordis.europa.eu/esfri];
  • 52. NCBiR [ncbir.gov.pl];
  • 53. ELAN [elan.desy.de];
  • 54. BENE [bene.web.cern.ch/bene], [nu.to.infn.it/Neutrino_super_Beam];
  • 55. HHH [care-hhh.web.cern.ch];
  • 56. EuDET [eudet.org];
  • 57. FITAL [fital.fuw.edu.pl];
  • 58. ILC - International Linea Collider [linearcollider.org];
  • 59. TESLA TC [tesla-new.desy.de];
  • 60. ILC Warsaw [hep.fuw.edu.pl/ilc];
  • 61. E-XFEL-ILC Warsaw Group ILC News Line, 5 July 2007 [linearcollider.org/newsline/archive/2007/20070705.html], Warsaw ELHEP Group [desy.de/rrom];
  • 62. ITER [iter.org];
  • 63. LHC [cern.ch/LHC], [lhc.fuw.edu.pl], CMS [cms.cern.ch], ATLAS [atlas.cern.cn];
  • 64. FLASH - Free Electron Laser in Hamburg [flash.desy.de];
  • 65. E-XFEL - European X-Ray Free Electron Laser [xfel.desy.de], [xfel.eu];
  • 66. XFEL Polska [xfel.pl];
  • 67. PSFN, Konsorcjum Femtofizyka [slcj.uw.edu.pl/pnpn/en/25.454.html];
  • 68. GSI Darmstadt, FAIR [gsi.de/fair];
  • 69. J. Sekutowicz: Multi-cell Superconducting Structures for High Energy e+-e- Colliders and Free Electron Laser Linacs. Publ.House of WUT, 2008.
  • 70. ESRF - European Synchrotron Radiation Facility [esrf.eu];
  • 71. PPTN [platforma.centrumatomistyki.pl];
  • 72. CEAT [public.ipj.gov.pl/ceat];
  • 73. EuCARD [eucard.web.cern.ch/EuCARD];
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWAD-0015-0016
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