Plasmonics offers a novel approach to overcome the speed limitations of photonics. More importantly plasmonics is a high-speed solution providing lowest power operation on the smallest footprint with a path for CMOS compatible fabrication. In this plenary talk, after an introduction we will discuss latest results on novel modulators, detectors or THz sensors. We will then discuss challenges ahead as well as opportunities of this new field.
Continue reading “Plasmonics for Integrated Optics”Integrated Photonic Biosensors
Silicon photonic biosensors have shown to be capable of obtaining state-of-the-art sensitivity values unattainable with other technologies. Besides, they offer small footprint allowing multiplexed solutions to be realized in a single chip and potential low cost due to compatibility with the CMOS manufacturing infrastructure.
Continue reading “Integrated Photonic Biosensors”Session Poster 4 SiN devices, Resonator ECIO 2020
Directional Coupling Interface between Si-rich nitride and Si3N4 Waveguides Towards the Monolithic Co-integration of QD-InP and Si3N4 Photonic Components on Si (Student paper)
Continue reading “Session Poster 4 SiN devices, Resonator ECIO 2020”CMOS Compatible Integrated Nonlinear Optics for Classical and Quantum Applications – Presented by David J. Moss, Swinburne University of Technology
CMOS Compatible Integrated Nonlinear Optics for Classical and Quantum Applications – Presented by Professor David J. Moss, Swinburne University of Technology at the 19th edition European Conference on Integrated Optics, which takes place on 3 – 5 April 2017 at Eindhoven University of Technology, Blauwe Zaal in Eindhoven, The Netherlands. Continue reading “CMOS Compatible Integrated Nonlinear Optics for Classical and Quantum Applications – Presented by David J. Moss, Swinburne University of Technology”