Publication Beamlines Strategic Pillar
Baribeau, C.K.; Dallin, L.O. (2012). Using RADIA to Model Superconducting Wigglers at the Canadian Light Source. In Proceedings of IPAC'10. International Particle Accelerator Conference. 9789290833529.
Atanasoska, Liliana; Gupta, Pankaj; Deng, Charles; Warner, R.; Larson, Steven et al. (2009). XPS, AES, and Electrochemical Study of Iridium Oxide Coating Materials for Cardiovascular Stent Application. ECS Transactions 16(38) , 37-48. 10.1149/1.3103808.
Asai, J.; Wysokinski, T.; Chapman, D.; Mullin, C. (2009). Dose rate considerations for the BMIT POE3 at the Canadian Light Source. In 5th International Workshop on Radiation Safety at Synchrotron Radiation Sources. . .
Agyeman-Budu; David N.; Choudhury; Sanjukta; Coulthard et al. (2016). Germanium collimating micro-channel arrays for high resolution, high energy confocal X-ray fluorescence microscopy. Patent Number: 10.1063/1.4961132. CLS-APS
Achenbach, S.; Klymyshyn, D.; Subramanian, V.; Ruether, F.; Mullin, C. et al. (2008). An ultra-large-area Beryllium vacuum window for the X-ray lithography beamline SyLMAND at the Canadian Light Source. In 15th Pan-American Synchrotron Radiation Instrumentation Conference (SRI). . .
Lisa L. Van Loon; Chithra Karunakaran; Shanshan Huo; Jeffrey N. Cutler; Simon Potter et al. (2013). Developing a Micro- and Nanoscale Understanding of Natural Fiber Biocomposite Products. In International SAMPE technical conference series. SAMPE. 9781934551158. BMIT-BM, CMCF-BM, MID-IR, SGM, SM, VESPERS Agriculture
Kingsley L. Iroba, Lope G. Tabil (2014). Application of Fourier transform infrared-photoacoustic spectroscopy for the compositional analysis of radio frequency alkaline pretreated and non-treated barley straw. 2950 Niles Road, St. Joseph, Michigan, USA: American Society of Agricultural and Biological Engineers. , 141897850 10.13031/aim.20141897850. MID-IR Agriculture
Grochulski; P.; Fodje; M.N.; George et al. (2012). Status and Vision for Structural Biology at the Canadian Light Source. In Acta Physica Polonica A. Institute of Physics, Polish Academy of Sciences, Poland. , 866-870 10.12693/APhysPolA.121.866. BIOXAS-IMAGING, BIOXAS-MAIN, BIOXAS-SIDE, BMIT-ID, CMCF-BM, SM Agriculture
Dogan Paktunc, Michael C. Moncur, S. Jean Birks, John J. Gibson, Yi Yi (2015). Predicting the mobilization of dissolved metals, organics and gas Predicting the mobilization of dissolved metals, organics and gas Predicting the mobilization of dissolved metals, organics and gas Predicting the mobilization of dissolved metals, organics. Canada: Integrated Water Management, Alberta Innovates – Technology Futures, CANMET Mining and Mineral Scie. http://www.geoconvention.com/archives/2015/258_GC2015_Predicting_the_mobilization_of_dissolved_metals.pdf. CLS-APS Environment
Wysokinski, T W; Chapman, D; Adams, G; Renier, M; Suortti, P et al. (2013). Beamlines of the Biomedical Imaging and Therapy Facility at the Canadian Light Source - Part 2. Journal of Physics: Conference Series 425(7) , 072013. 10.1088/1742-6596/425/7/072013. BMIT-BM, BMIT-ID Health
Schultke, E.; Wysokinski , T.W. (2006). New Prospects for Cancer Therapy Using Synchrotron Radiation. In CCPM Symposium I-02. . . Health
Schültke, Elisabeth; Bewer, Brian; Wysokinski, Tomasz; Chapman, Dean; Nikkhah, Guido et al. (2010). Bystander Effects During Synchrotron Imaging Procedures?. AIP Conference Proceedings , 111-114. 10.1063/1.3478188. BMIT-BM Health
Panahifar, A.; Cooper, D.M.; Doschak, M.R. (2015). Synchrotron-based 3-D functional micro-CT imaging of dynamic strontium label to localize pathological bone adaptations in post-traumatic osteoarthritis. Osteoarthritis and Cartilage 23, A78-A79. 10.1016/j.joca.2015.02.156. BMIT-BM Health
Bairagi, S.; Belev, G.; Chapman, D.; Cooper, D.; Dust, W. et al. (2015). Is phase-contrast computed tomography more sensitive than magnetic resonance imaging in quantifying cartilage damage in osteoarthritis?. Osteoarthritis and Cartilage 23, A258. 10.1016/j.joca.2015.02.469. BMIT-BM Health
Zhou, X. T.; Heigl, F.; Murphy, M. W.; Regier, T.; Coulthard, I. et al. (2007). Origin of the Luminescence from SnO2 Nanoribbons. AIP Conference Proceedings , 777-779. 10.1063/1.2644661. SGM Materials