2005.12.09 cipi in nanotechnologies. 2005.12.09 small administration cell distributed research teams...
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2005.12.09
CIPI in Nanotechnologies
2005.12.09
Small Administration cellDistributed Research teams of University professors/students
and Affiliates
• Biophotonics
• Frontier Photonics
• Information and Telecommunications
• Technology Exploitation and Networking Program
• Innovative Photonic Applications Program
Tea
m
Pro
gra
m
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 CanadiansM
issi
on
2005.12.09
CIPI Board Members
• 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
Chair: Doug James, Jambalaya
2005.12.09
CIPI Network at a Glance
90 researchers, 270 graduate students / 18 universities, 66 affiliate members
Biophotonics
Information and Telecom
Frontier Photonics
Concordia U.INRS
Laval U.McGill U.
Montréal U.PolytechniqueSherbrooke 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:
2005-2006 FundingNCE: $4 250kAffiliates: $3 034kTOTAL: $7 284k
2005.12.09
CIPI Research Program
Blood vessels
Photoreceptors
Diseased tissue
Blood vessels
Photoreceptors
Diseased tissue
Blood vessels
Photoreceptors
Diseased tissue
BiophotonicsLeader: Brian Wilson, U. Toronto
Information and TelecomLeader: Paul Jessop, U. McMaster
Frontier PhotonicsLeader: Réal Vallée, COPL
Node Node
OCDM A-PONLAN
CW DM /OCDMA-PONLAN
Coded data
Coded data
Node
W DM /TDM -PONLAN
800nm – 1310nm – 1560nm
www.cipi.ulaval.ca
2005.12.09
FP3- Specialty optical fiber components for biomedical applications
Universities involved:• Laval• École polytechnique• Ottawa
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
Objective:Develop new functionalities offered byMicrostructured optical fibres for biomedical applications
nJ - fslaser pulses
Output spectra
Tapered fiber
2005.12.09
FP4- Development of nanostructures for light emitting and detecting devices
Universities involved:• McMaster, • Alberta, • Simon Fraser, • Toronto, • Queen’s
Supporting organizations:• iFire Technologies, • Carmanah Technologies, • Xerox, • iCore, • Kyoto Technology, • MMO
Objective:To develop a new class of nanophotonic devicesSuitable for integration into photonic integrated circuits
Sub-thrusts:a) Precise placement of nanowires on a range of substratesb) Develop methodologies for preparing nanowires on
heterostructures and add dopingc) Explore novel arrangements for photonic crystal cavities
2005.12.09
FP5- Nanoprecision material processing for biophotonics, sensing and telecom applications
Universities involved:• Laval• Alberta• Toronto
Supporting organizations:• Aurora NanoDevices• Axis Photonics• DALSA• EXFO• IMRA America• Micralyne• (VRQ Femtotech Program)
Objective:Develop ultrafast laser material processingsuitable for glass, semiconductor and metal processing
Using:Femtosecond near infrared and Nanosecond ultraviolet and vacuum ultraviolet lasers 650nm dots on polymer
Woodplie-type photonic crystals
2005.12.09
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
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
ExploitingOrganization
End user(Industry or Institution)
Researchers In Photonics
2005.12.09
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
CIPI Fostering Partnership in Photonics
PhotonicResearch Teams
Application Industry
Optic Industry
Colleges, CEGEP andR&D Organizations
CIPI
2005.12.09