Project overview
The aim of the proposal is the development of a high throughput, broadband method to access real-time information about the fine details of physical and biological objects. This will be achieved by transforming evanescent electromagnetic waves, the information carriers for small scale features, to free-space propagating waves that can be collected easily by standard optical techniques. The suggested metamaterial platform will impact most fields where fine-scale diagnostics are important (materials science, condensed matter physics, biology) and will also allow the recording and retrieval of encrypted information for which specially designed metamaterials will act as a unique decryption key.
Staff
Lead researchers
Research outputs
T.A. Raybould, V.A. Fedotov, N. Papasimakis, I. Kuprov, I.J. Youngs, W.T. Chen, D.P. Tsai & N.I. Zheludev,
2016, Physical Review B, 94(3), 1-5
Type: article
N. Papasimakis, V.A. Fedotov, V. Savinov, T.A. Raybould & N.I. Zheludev,
2016, Nature Materials, 15(3), 263-271
DOI: 10.1038/NMAT4563
Type: article
T.A. Raybould, V. Fedotov, N. Papasimakis, I. Youngs & N. Zheludev,
2016, Optics Express, 24(4), 3150-3161
DOI: 10.1364/OE.24.003150
Type: article
Vassili Fedotov, Nikitas Papasimakis, Nikolay I. Zheludev, Jan Wallauer, Markus Walther & Mauro Perino,
2015, Light: Science & Applications, 4(e306), 1-6
DOI: 10.1038/lsa.2015.79
Type: article