Plasmonic colloids are small metal particles that can enhance optical responses in devices. This research has application is in colour generation, and solar light harvesting.
There have been decades of research into light-matter interactions with plasmonics. They enhance the optical response by tuning to resonances or a Fabry-Perot cavity. This can tailor for desired spectral features in reflection and transmission, as well as absorption.
This presentation will introduce dense, disordered, colloidal plasmonic arrays that demonstrate reflective narrow spectral bands for colour generation. They show that the far-field properties are independent of the colloidal material. As a result, this provides a means for decoupling near- and far-field optical response.
About the presenter
Professor Maier received his PhD in Applied Physics from Caltech in 2003 and spent the following 15 years in the UK, where he continues to hold the Lee-Lucas Chair in Experimental Physics at Imperial College London. His previous academic leadership roles were Head of the Experimental Solid State Physics Group, and Director of Postgraduate Studies, both for the Department of Physics at Imperial.
Please note this is a hybrid event.
Click REGISTR NOW above to join the event virtually.
The in-person event will be held at the Leonard Huxley Lecture Theatre at 56 Mills Road at ANU.