TEPS 2017
The NSERC CREATE Training Program in Technologies for Exo-Planetary Science (TEPS) held it's Summer School Workshop. The Workshop took place in Montreal, Quebec on Thursday June 15th and Friday June 16th followed by a mini-conference on Saturday June 17th, 2017. This intensive three-day event included short courses in each TEPS theme. Each thematic day of the program was split between basic and advanced topics, with presentations given by experts in the field. All of the experts were external to the program, and were introduced to the wider research and industry community.
For the complete itinerary, please click
HERE
Agenda
Since the first exo-planet around a Sun-like star was discovered in 1995, the pace of exo-planetary science has accelerated, with nearly 2000 such planets now confirmed. Technological advances in both observational and analytical tools drive this momentum. The sheer diversity of worlds and systems is revolutionizing planetary science, yet we discern the vast majority of exoplanets only indirectly by their effects on the parent stars. A robust understanding of these results must come from analogy with our own solar system. In fact, one of the most tantalizing findings of exo-planetary research will be direct evidence of biology on other worlds – a goal that is achievable in the coming decades. By cultivating the next generation of research scientists, the TEPS program will place Canadians at the forefront of this emerging science and related technologies.Scientific Opportunity
Dr. Jason Rowe Dr. Rebekah Dawson Dr. Barbara Cohen Dr. Cameron Dickinson Dr. Paul Hayne
Bishop’s University Pennsylvania State University NASA MDA Space Missions Jet Propulsion Laboratory
Guest Speakers
TEPS Trainees Presentations
For the complete list of the TEPS trainees abstracts, please
Click Here
Since the first exo-planet around a Sun-like star was discovered in 1995, the pace of exo-planetary science has accelerated, with nearly 2000 such planets now confirmed. Technological advances in both observational and analytical tools drive this momentum. The sheer diversity of worlds and systems is revolutionizing planetary science, yet we discern the vast majority of exoplanets only indirectly by their effects on the parent stars. A robust understanding of these results must come from analogy with our own solar system. In fact, one of the most tantalizing findings of exo-planetary research will be direct evidence of biology on other worlds – a goal that is achievable in the coming decades. By cultivating the next generation of research scientists, the TEPS program will place Canadians at the forefront of this emerging science and related technologies.Scientific Opportunity
The Workshop
