Bora Ung
Professor
Bora Ung
phi-lab_logo.png                        ETS_hologram.png
At the PHotonic Innovations lab (phi_lab) in ETS we develop novel photonic devices and optical methods aimed at addressing a variety of applications. Here are our main research directions:

A) Design of specialty optical fibers
 
We design specialty fibers using numerical tools and ensure their fabrication through external collaborators. These specialty fibers are investigated in key application areas such as: next-generation telecommunications, supercontinuum generation and fiber-optic sensors.

B) Space-division multiplexing for next-generation optical communications
MCF_ROADM.png
Spatial multiplexing is an approach that promises to enhance the capacity of optical communication links by increasing the number of transmission channels within a single strand of fiber. Custom-made specialty optical fibers (few-mode and multicore) are employed in investigations that benefit from the collaboration of researchers at Laval University (see Partners)

C) Cylindrical vector beams and beams with orbital angular momentum
TM01_beam.png  SpiralFringePattern_L4.png
Annular optical beams such as the cylindrical vector beams (with inhomogeneous polarization) and beams with orbital angular momentum (aka "optical vortices") are investigated towards the development of novel optical sensors, imaging devices and for pushing new frontiers in light-matter interactions.

D) Fiber-optic sensors
Plasmonic-fiber-optic-sensor.png  BrillouinSpectrumIPGIF-(1).png
The small size, low power, fast response and high sensitivity of optical fibers make them ideal tool for the development of sensors for temperature, pressure, strain, humidity, etc. We have among others developed plasmonic fiber-optic humidity sensors and are working on advanced distributed fiber-optic sensors using few-mode fibers.

E) Biophotonics and biomedical devices
InstrumentedSpinalCord.png
In collaboration with the team of Prof. Éric Wagnac, we utilize optical fibers and polymer optical waveguides in various biomedical applications such as: the biomechanical study of spinal cord injuries, and in dentistry. The compact size of optical sensors as well as their high sensitivity allows their efficient integration in clothing, orthotics, prosthetics and many other smart biomedical devices.


Contact info

Office: A-2481
Phone: 514 396-8529


bora.ung@etsmtl.ca

News

Openings available
for MSc and PhD candidates in electrical engineering