老司机直播's Sajeev John receives Gerhard Herzberg Canada Gold Medal for work on harnessing flow of photons
Theoretical physicist Sajeev John has received Canada鈥檚 highest science and engineering honour, the prestigious Gerhard Herzberg Canada Gold Medal.
John is receiving the award for his groundbreaking research and fundamental advancements in confining and harnessing the flow of photons of light in a manner analogous to harnessing the flow of electrons.
The medal also recognizes John for his leadership in efforts to transform this research into groundbreaking applications in optical micro-chips, optical communications and information processing, laser technologies, solar-energy harvesting and clinical medicine 鈥 including life-saving surgical tools and techniques.
鈥淚 am profoundly honoured and feel singularly energized to bring to broader fruition the work I began on light-trapping crystals,鈥 says John, in the Faculty of Arts & Science's .
鈥淭he Herzberg Gold Medal offers a unique opportunity for creativity and unfettered pursuit of essential applications such as the world鈥檚 most efficient, lightweight silicon solar cells; light-trapping to enhance artificial photosynthesis for solar fuel production; development of the most compact lab-in-a-photonic-crystal sensors for early-stage disease detection and diagnosis; and much more.鈥
Named after the Canadian physicist and Nobel laureate in chemistry, the recognizes the excellence and impact of a recipient鈥檚 research. It is awarded annually by the Natural Sciences and Engineering Research Council of Canada (NSERC).
鈥淧rofessor John is truly deserving of the country鈥檚 highest scientific honour,鈥 says Melanie Woodin, dean of the Faculty of Arts & Science. 鈥淣ot only has his work been foundational, it has also had an impact in physics, chemistry, engineering and medicine, and is leading to advancements that are benefiting people鈥檚 lives.鈥
John's research provides a solution to the problem that photons do not tend to flow along confined pathways like electrons but instead disperse or are absorbed.
According to Kim Strong, chair of the department of physics, 鈥淧rofessor John鈥檚 research laid out the theoretical foundation for special materials 鈥 called Photonic Band Gap (PBG) materials 鈥 that allow confinement, or localization, of photons to a microscopic region with the size of the wavelength of light.鈥
鈥淥nce you know how to confine photons to a single location,鈥 she says, 鈥測ou can confine their motion along prescribed microscopic circuit paths, analogous to the way the motion of electrons is controlled on the nanometer scale in semiconductors.鈥
Following up on his theoretical work, John and his collaborators built the first large-scale silicon PBG material out of a synthetic opal and have created PBG materials that are even easier and cheaper to manufacture.
The groundbreaking work has sparked the development of novel micro-structured materials known as photonic crystals, now referred to as 鈥渟emiconductors of light.鈥 Ultimately, the breakthrough will enable computer chips to operate with photons instead of electrons.
Among many impacts beyond the lab, research into PBG materials has already produced life-saving advancements in clinical medicine. In 2004, laser surgery was performed on a patient to remove a previously treated tumour that was recurring and remained life-threatening. A final, successful surgery was carried out using a hollow-core photonic band gap fibre. Thousands of similar procedures have been performed using PBG fibres and several major medical centres are now testing PBG-fibre-based laser surgery tools.
"The University of Toronto congratulates Sajeev John on鈥痶his important recognition,鈥 says Professor鈥Leah Cowen, 老司机直播鈥檚 associate vice-president of research. 鈥淔rom his groundbreaking work on confining and harnessing the flow of photons to his leadership in exploring applications for his research in optical micro-chips, optical communications and information processing, laser technologies, solar energy-harvesting and clinical medicine 鈥 his impact has been remarkable.鈥
In 1984, John received his PhD in physics from Harvard University, where he published the original paper on light localization. He was an assistant professor at Princeton University, where he pioneered the concept of photonic band gap materials. He joined 老司机直播 in 1989.
John鈥檚 research and scientific leadership earned him the 2001 King Faisal International Prize in Science (with Nobel laureate C.N. Yang). In 2007, the Institute of Electrical and Electronics Engineers (IEEE) awarded him with the International Quantum Electronics Award for 鈥渢he invention of and development of light-trapping crystals and the elucidation of their properties and applications.鈥
He is holder of a Canada Research Chair in and was named an in 2017.