Conveners
M2-7 Accelerator Applications (DAPI) / Applications d'accélérateurs (DPAI)
- Mark Boland (Canadian Light Source)
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Alexander Gottberg (TRIUMF (CA))07/06/2021, 12:45Applied Physics and Instrumentation / Physique appliquée et de l'instrumentation (DAPI / DPAI)Invited Speaker / Conférencier(ère) invité(e)
For 50 years, TRIUMF has stood at the frontier of scientific understanding as Canada’s particle accelerator centre. Driven by two made-in-Canada cutting edge accelerators - the world’s largest cyclotron, and our new high-power superconducting linear accelerator - we continue to ask the big questions about the origins of the universe and everything in it.
With over five decades of...
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Cornelia Hoehr (TRIUMF)07/06/2021, 12:55Applied Physics and Instrumentation / Physique appliquée et de l'instrumentation (DAPI / DPAI)Invited Speaker / Conférencier(ère) invité(e)
From its inception, the Life Sciences division at TRIUMF has leveraged the laboratory’s extensive particle accelerator expertise and infrastructure to develop novel technologies that help understand life at the molecular level. This includes novel technologies and research in particle beam therapy and biobetaNMR, but also prominently the production of short-lived (half-life <2 hr) positron...
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Prof. Bradley Siwick (McGill University)07/06/2021, 13:05Applied Physics and Instrumentation / Physique appliquée et de l'instrumentation (DAPI / DPAI)Oral (Non-Student) / Orale (non-étudiant(e))
In this talk I will describe how combining ultrafast lasers and electron microscopes in novel ways makes it possible to directly ‘watch’ the time-evolving structure of condensed matter on the fastest timescales open to atomic motion. By combining such measurements with complementary (and more conventional) spectroscopic probes one can develop structure-property relationships for materials...
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Erin L. Flannigan (University of Ottawa)07/06/2021, 13:10Applied Physics and Instrumentation / Physique appliquée et de l'instrumentation (DAPI / DPAI)Oral Competition (Graduate Student) / Compétition orale (Étudiant(e) du 2e ou 3e cycle)
Accelerator Mass Spectrometry (AMS) provides high sensitivity measurements (typically at or below 1 part in $10^{12}$) for rare, long-lived radioisotopes when isobars (other elements with the same atomic weight as the isotope of interest) can be eliminated. In AMS laboratories, established techniques are used for the removal of the interfering isobars of some light isotopes. However, for...
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Collin Tiessen (Andre E. Lalonde Accelerator Mass Spectrometry Lab)07/06/2021, 13:15Applied Physics and Instrumentation / Physique appliquée et de l'instrumentation (DAPI / DPAI)Oral Competition (Graduate Student) / Compétition orale (Étudiant(e) du 2e ou 3e cycle)
Negative Ion Source Development for Accelerator Mass Spectrometry
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CJ Tiessen, WE Kieser, and XL Zhao
Accelerator mass spectrometry (AMS) is a highly sensitive technique used for the analysis of long-lived radioisotopes. While carbon-14 dating is the most well known application, AMS can be used to measure other isotopes such as beryllium-10, aluminum-26, iodine-129, and uranium-236 which are... -
Mr Behnam Ashrafkhani (University of Calgary)07/06/2021, 13:20Applied Physics and Instrumentation / Physique appliquée et de l'instrumentation (DAPI / DPAI)Oral Competition (Graduate Student) / Compétition orale (Étudiant(e) du 2e ou 3e cycle)
The radioactive decay of radon in the home is the leading cause of lung cancer in non-smoking Canadians (REF 1,2). Radon produced by the decay of uranium and thorium minerals entering the home may accumulate in concentrations that exceed the national maximum guideline for indoor air of 200 Bq/m3. There is a critical need to develop a practical tool to assess an individual’s...
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