BMIT BM BMIT ID CMCF ID CMCF BM Far-IR HXMA IDEAS Mid-IR OSR REIXS SGM [1]
SM SXRMB SyLMAND VESPERS VLS-PGM XSR
Capital Funding Sources [2]
| Source | Contribution |
|---|---|
| Canada Foundation for Innovation | $ 56.4 |
| Federal Government | $ 28.3 |
| Saskatchewan Government | 25.0 |
| SaskPower | 2.0 |
| University of Saskatchewan | $ 7.3 |
University of Saskatchewan
|
$ 32.6 |
| City of Saskatoon | $ 2.4 |
| Universities of Alberta and Western Ontario | $ 0.3 |
Alberta Innovation and Science and
|
$ 9.6 |
| Government of Ontarion | $ 9.6 |
| Boehringer Ingelheim | $ 0.5 |
| TOTAL | $ 174.0 |
The CLS is known for its industrial research[3] [4] and its education progran
A further push towards a Canadian synchrotron lightsource started in 1990 with formation of the Canadian Institute for Synchrotron Radiation (CISR), initiated by Bruce Bigham of AECL. AECL and TRIUMF showed interest in designing the ring, but the Saskatchewan Accelerator Laboratory at the University of Saskatchewan became prominent in the design phase. In 1991 CISR submitted a propoal to NSERC for a final design study. This was turned down, but in later years, under President Peter Morand, NSERC became more supportive. In 1994 NSERC committee recommended a Canadian synchrotron lightsource and a further NSERC committee was formed to select between two bids to host such a facility, from the Universities of Saskatchewan and Western Ontario. In 1996 this committee recommended that the Canadian Light Source be built in Saskatchewan. [5][6]
Sources
- Woodhouse, Howard (2009). Selling Out: Academic Freedom and the Corporate Market. Montreal and Kingston: McGill-Queens' University Press. ISBN 978-0-7735-3580-0.
References
- ^ Regier, T; Krochak, J; Sham, T. K.; Hu, Y. F.; Thompson, R. I. R.; Blyth (2007). "Performance and capabilities of the CanadianDragon: The SGM beamline at the Canadian Light Source". Nuclear Instruments and Methods in Physics Research A. 582: 93–95. doi:10.1016/j.nima.2007.08.071,.
{{cite journal}}: Check|doi=value (help)CS1 maint: extra punctuation (link) - ^ Woodhouse, p. 165.
- ^ Woodhouse.
- ^ a b Cutler, J.; Christensen, C.; Kotzer, T.G.; Ogunremi, T; Warner, J. (2007). "The Canadian Light Source – A new tool for industrial research". Nuclear Instruments and Methods in Physics Research B. 261: 859–862. doi:10.1016/j.nimb.2007.04.051.
- ^ a b Bancroft, G. M. (2004). "The Canadian Light Source — History and scientific prospects". Canadian Journal of Chemistry. 35: 25. doi:10.1080/08940886.2012.683354.
- ^ "Commissioning report of the CLS booster synchrotron" (PDF). 2004. Retrieved 2012-22-07.
{{cite web}}: Check date values in:|accessdate=(help) - ^ Woodhouse, p. 84.
- ^ Guralnik, Gerald; Hagen, C. R.; Kibble, T. W. B. (1964). "Global Conservation Laws and Massless Particles". Physical Review Letters. 13 (20): 585–587. Bibcode:1964PhRvL..13..585G. doi:10.1103/PhysRevLett.13.585.
- ^ Ellis, Thomas (2012). "Canadian Light Source Hitting its Stride". Synchrotron Radiation News. 82: 1028–1042. doi:10.1139/v04-027.
- ^ a b Cutler, Jeffrey; Hallin, Emil; de Jong, Mark; Thomlinson, William; Ellis, Thomas (2007). "The Canadian Light Source: The newest synchrotron in the Americas". Nuclear Instruments and Methods in Physics Research A. 582: 11–13. doi:10.1016/j.nima.2007.08.086.
- ^ Bisby, Mark; Maitland, Peter (2005). "CIHR Research: Re-Inventing the Microscope: The Canadian Light Source (CLS)". Healthcare Quarterly. 8: 22–23.