Available student project - Topological photonics for electromagnetic metadevices

Research fields

  • Nanoscience and Nanotechnology
  • Topological and Structural Science
Examples of topological electromagnetic states

Project details

For decades, many branches of physics have been dominated by the lattice symmetries and chemical composition as the key concepts in the classification and design of various solid-state materials. However, it has recently been demonstrated that topology may be more important than symmetry in determining certain material properties. Topology is a subtle global property of the system governing how its parts connect. Materials insulating in a bulk but conducting at the surfaces through topological edge states were discovered in solid state physics in 2006, and they are currently known as topological insulators.

Discovery of topological insulators has initiated searches for topological effects in other fields of physics, including topological states of electromagnetic waves.  This is driven by a grand vision of the waveguiding and routing of light on an optical chip that is robust against scattering on imperfections due to the one-way topological nature of edge states. Importantly, light can bypass an obstacle in a judiciously engineered array of resonators. Several suggested realisations of topological states of light are based on passive structures with fixed parameters, whose properties are specified during fabrication. This project will be based on our recent advances [1,2], and it will study novel photonic structures and metadevices for a control of light flows topologically protected against scattering losses, energy leaking, or imperfections.

[1] S. Kruk et al, "Edge states and topological phase transitions in chains of dielectric nanoparticles", Small 13, 1603190 (2017).

[2] A. Slobozhanyuk et al, "Three-dimensional all-dielectric photonic topological insulator", Nature Photonics 11, 130–136 (2017). 

Required background

Background knowledge in electromagnetism is essential for this project

Project suitability

This research project can be tailored to suit students of the following type(s)
  • Honours project
  • Phd or Masters

Contact supervisor

Kivshar, Yuri profile
Head of Department
53081

Other supervisor(s)

Kruk, Sergey profile
55473

Updated:  17 August 2017/ Responsible Officer:  Director, RSPE/ Page Contact:  Physics Webmaster