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
Nikitas Papasimakis, Stewart D Jenkins, Salvatore Savo, Nikolai Zheludev & Janne Ruostekoski,
2019, Physical Review B, 99
Type: article
Stewart D. Jenkins, Nikitas Papasimakis, Salvatore Savo, Nikolay I. Zheludev & Janne Ruostekoski,
2018, Physical Review B, 98(24)
Type: article
Nikitas Papasimakis, Timothy Raybould, Vassili Fedotov, Din Ping Tsai, Ian Youngs & Nikolai Zheludev,
2018, Physical Review B
Type: article
Stewart Jenkins, Janne Ruostekoski, Nikitas Papasimakis, Salvatore Savo & Nikolai Zheludev,
2017, Physical Review Letters, 119(5), 1-6
Type: article
Timothy, Andrew Raybould, Vassili Fedotov, Nikitas Papasimakis, I. Youngs & Nikolai Zheludev,
2017, Applied Physics Letters, 111(8)
DOI: 10.1063/1.4999368
Type: article
F.A. Pinheiro, V.A. Fedotov, N. Papasimakis & N.I. Zheludev,
2017, Physical Review B, 95(22)
Type: article
Pin Chieh Wu, Nikitas Papasimakis & Din Ping Tsai,
2016, Physical Review Applied, 6(44019), 1-20
Type: article