BioPET: dedicated plant and soil micro-organism positron emission tomography system. Talebitaher, A., Chang, Y. F., Thompson, K., Papandreou, Z., Mamet, S., Siciliano, S. D., Lee, S. J., McKisson, J. E., Kross, B., & Teymurazyan, A. In The nuclear future : challenges and innovation. 38th Annual Canadian Nuclear Society conference, Canada, 2018. Canadian Nuclear Society. the Canadian Nuclear Society, Toronto, Ontario (Canada)
BioPET: dedicated plant and soil micro-organism positron emission tomography system [link]Paper  doi  abstract   bibtex   
The Nuclear Imaging Detector Development group at the Department of Physics, University of Regina is developing Canada's first positron emission tomography (PET) system for plant physiological function studies In its current configuration the system consists of four detectors heads, each with active area of 48x48 mm2 In a typical arrangement the four detectors are grouped in two pairs of opposing heads for detecting coincident events from positron annihilation, however the system geometry, data acquisition and image reconstruction are flexible and can be easily reconfigured on-demand to accommodate other scanner configurations The detector pairs can be scanned along the vertical axis allowing to image plants up to 50 cm tall, while the plant within the Field of View (FOV) of the scanner can be rotated on a precision controlled motorized platform to provide a complete 3D coverage of the plant Current development and characterization of the plant PET system will be presented (author)
@inproceedings{Talebitaher:2018aa,
	Abstract = {The Nuclear Imaging Detector Development group at the Department of Physics, University of Regina is developing Canada's first positron emission tomography (PET) system for plant physiological function studies In its current configuration the system consists of four detectors heads, each with active area of 48x48 mm2 In a typical arrangement the four detectors are grouped in two pairs of opposing heads for detecting coincident events from positron annihilation, however the system geometry, data acquisition and image reconstruction are flexible and can be easily reconfigured on-demand to accommodate other scanner configurations The detector pairs can be scanned along the vertical axis allowing to image plants up to 50 cm tall, while the plant within the Field of View (FOV) of the scanner can be rotated on a precision controlled motorized platform to provide a complete 3D coverage of the plant Current development and characterization of the plant PET system will be presented (author)},
	Address = {Canada},
	Author = {Talebitaher, A. and Chang, Y. F. and Thompson, K. and Papandreou, Z. and Mamet, S. and Siciliano, S. D. and Lee, S. J. and McKisson, J. E. and Kross, B. and Teymurazyan, A.},
	Booktitle = {The nuclear future : challenges and innovation. 38th Annual {Canadian} {Nuclear} {Society} conference},
	Isbn = {978-1-926773-27-8},
	Publisher = {Canadian Nuclear Society},
	Title = {BioPET: dedicated plant and soil micro-organism positron emission tomography system},
	Ty = {CONF},
	Url = {http://inis.iaea.org/search/search.aspx?orig_q=RN:50012905},
	Note = {the Canadian Nuclear Society, Toronto, Ontario (Canada)},
	Year = {2018},
	doi={10.5281/zenodo.3842961},
	Bdsk-Url-1 = {http://inis.iaea.org/search/search.aspx?orig_q=RN:50012905;%20the%20Canadian%20Nuclear%20Society,%20Toronto,%20Ontario%20(Canada).}}
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