Jayshri Sabarinathan, Western University

Profile photo of Jayshri Sabarinathan, expert at Western University

Associate Professor Department of Electrical and Computer Engineering London, Ontario jsabarin@uwo.ca Office: (519) 661-2111 ext. 81173

Bio/Research

Jayshri Sabarinathan is currently an assistant professor at the University of Western Ontario in the Department of Electrical and Computer Engineering. She joined the University of Western Ontario in Fall, 2003 and received the NSERC University Faculty award (UFA) in 2004.

She obtained h...


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Bio/Research

Jayshri Sabarinathan is currently an assistant professor at the University of Western Ontario in the Department of Electrical and Computer Engineering. She joined the University of Western Ontario in Fall, 2003 and received the NSERC University Faculty award (UFA) in 2004.

She obtained her B.S.E in Electrical Engineering and Engineering Physics and her M.S.E and Ph.D. degrees in Electrical Engineering from the University of Michigan, Ann Arbor, in 1997, 1999 and 2003 respectively. Her Ph.D. research involved the demonstration of the first electrically injected quantum dot photonic crystal (PC) microcavity light source, novel two-dimensional PC-based microfluidic sensors and single-step epitaxial techniques to fabricate three-dimensional GaAs-based PCs. She has extensive nanofabrication experience working at the University of Michigan Solid State Electronics laboratory (SSEL) and the NSF funded Cornell Nanoscale Science & Technology Facility (CNF).

She is a member of the Institute of Electrical and Electronics Engineers (IEEE), the International Society for Optical Engineering (SPIE), the National Electrical and Computer Engineering Honor Society - Eta Kappa Nu (HKN) and, the Engineering Honor Society -Tau Beta Pi (TBP).

Dr. Jayshri Sabarinathanís specific research interests include:

ÿDeveloping reliable and reproducible fabrication of individual photonic crystal devices and integration of active and passive PC devices to realize miniaturized photonic crystal integrated circuits.

Demonstrate photonic crystal based sensitive nano-scale bio-sensors utilizing the non-linear and dispersive properties of photonic crystals

Develop high-speed PC light sources and waveguides for high-speed communication applications.


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