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CIPI in Nanotechnologies

CIPI in Nanotechnologies. Small Administration cell Distributed Research teams of University professors/students and Affiliates. To bring university researchers together with public sector and industrial partners in a network with state-of-the-art facilities in order to stimulate

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CIPI in Nanotechnologies

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  1. CIPI in Nanotechnologies 2005.12.09

  2. Small Administration cell Distributed Research teams of University professors/students and Affiliates To bring university researchers together with public sector and industrial partners in a network with state-of-the-art facilities in order to stimulate innovations in photonics and promote their exploitation to generate wealth and enhance the quality of life for Canadians Mission • Biophotonics • Frontier Photonics • Information and Telecommunications • Technology Exploitation and Networking Program • Innovative Photonic Applications Program Program Team 2005.12.09

  3. Claude Bourget, INO Sylvain Charbonneau, NRC-IMS Michael Charles, U. of Toronto Victor Chupil, Dofasco Cristian Carrier, RDDC Pierre Labossière, U. of Sherbrooke Raymond Leblanc, U. Laval Yan Loke, Micralyne Peter Morand, CSTG Growth Fund David Plant, U. McGill Gregory Schinn, EXFO John Tulip, Boreal Laser Paul S. Vincett, FairCopy Services John Wright, Luxell CIPI Board Members • Chair: Doug James, Jambalaya 2005.12.09

  4. CIPI Network at a Glance 2005-2006 Funding NCE: $4 250k Affiliates: $3 034k TOTAL: $7 284k Concordia U. INRS Laval U. McGill U. Montréal U. Polytechnique Sherbrooke U. Carleton U. Ottawa U. Mc Master U. Queen’s U. Toronto U. Waterloo U Western U. Alberta U. Calgary U. Simon Fraser U. U.British Columbia Research Thrusts: Biophotonics Frontier Photonics Information and Telecom 90 researchers, 270 graduate students / 18 universities, 66 affiliate members 2005.12.09

  5. 800nm – 1310nm – 1560nm CIPI Research Program Biophotonics Leader: Brian Wilson, U. Toronto Frontier Photonics Leader: Réal Vallée, COPL Information and Telecom Leader: Paul Jessop, U. McMaster www.cipi.ulaval.ca 2005.12.09

  6. Output spectra nJ - fslaser pulses Tapered fiber FP3- Specialty optical fiber components for biomedical applications • Universities involved: • Laval • École polytechnique • Ottawa Objective: Develop new functionalities offered by Microstructured optical fibres for biomedical applications • Supporting organizations: • INO • EXFO • ITF Optical Technologies • TeraXion • CorActive Hightech • Photintech • OE/Land • Stokeryale • Avensys • Opsens • Ottawa Health Institute • Hôpital St-François d’assises • Hôpital Hôtel-Dieu de Québec 2005.12.09

  7. FP4- Development of nanostructures for light emitting and detecting devices • Objective: • To develop a new class of nanophotonic devices • Suitable for integration into photonic integrated circuits • Sub-thrusts: • Precise placement of nanowires on a range of substrates • Develop methodologies for preparing nanowires on heterostructures and add doping • Explore novel arrangements for photonic crystal cavities • Supporting organizations: • iFire Technologies, • Carmanah Technologies, • Xerox, • iCore, • Kyoto Technology, • MMO • Universities involved: • McMaster, • Alberta, • Simon Fraser, • Toronto, • Queen’s 2005.12.09

  8. FP5- Nanoprecision material processing for biophotonics, sensing and telecom applications Objective: Develop ultrafast laser material processing suitable for glass, semiconductor and metal processing Using: Femtosecond near infrared and Nanosecond ultraviolet and vacuum ultraviolet lasers 650nm dots on polymer • Supporting organizations: • Aurora NanoDevices • Axis Photonics • DALSA • EXFO • IMRA America • Micralyne • (VRQ Femtotech Program) • Universities involved: • Laval • Alberta • Toronto Woodplie-type photonic crystals 2005.12.09

  9. The TEN Program (Technology Exploitation and Networking) • New collaborations • Technology Transfer and Linkages • Technology Exploitation • Exchange Program for Graduate Students • Seminars, Conferences & Workshops • Accessing National Facilities 2005.12.09

  10. IPA Program(Innovative Photonic Applications) Objectives: • To resolve a short term problem • defined by the end user • to be solved by photonics • To build and reinforce the linkage between photonic researchers and the Canadian industry • To facilitate the transfer of exploitable technologies End user (Industry or Institution) Researchers In Photonics Exploiting Organization 2005.12.09

  11. Impact of CIPI • Efficient networking at the national as well as the international level • University researchers, • Industries, • Government laboratories • Applied research at the forefront of photonics • HQP training, networking and marketability • Creation of companies and technology and knowledge transfer 2005.12.09

  12. CIPI Fostering Partnership in Photonics Colleges, CEGEP and R&D Organizations Photonic Research Teams Optic Industry CIPI Application Industry 2005.12.09

  13. 2005.12.09

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