NANOSTRUCTURED METAFILMS: A NEW PARADIGM FOR PHOTONICS
Lead Research Organisation:
University of Southampton
Department Name: Optoelectronics Research Ctr (closed)
Abstract
The proposed research introduces a special type of metamaterials, namely planar metamaterials (or metafilms), for practical photonic applications. As a result, a whole new class of extremely compact (low-dimensional) photonic devices that replace the existing bulk optical components (such as spectral filters, polarizers, waveplates, beam splitters etc.) is envisaged. But more importantly artificial planar media allows achieving exotic photonic functionalities (e.g. optical superconductor, asymmetric transmission) that are hardly possible with the use of conventional bulk optical materials. Moreover, the research aims to add a new dimension to the concept of planar metamaterials, and therefore dramatically expand the range of available photonic functionalities, by combining electronic/molecular response of media and metamaterial resonances due to structuring.
Organisations
People |
ORCID iD |
Vassili Fedotov (Principal Investigator) |
Publications
Zheludev N
(2008)
Lasing spaser
in Nature Photonics
Zheludev N
(2011)
Metamaterial polarization spectral filter: Isolated transmission line at any prescribed wavelength
in Applied Physics Letters
Tsiatmas A
(2013)
Optical generation of intense ultrashort magnetic pulses at the nanoscale
in New Journal of Physics
Shadrivov I
(2011)
Electromagnetic wave analogue of an electronic diode
in New Journal of Physics
Schwanecke AS
(2008)
Nanostructured metal film with asymmetric optical transmission.
in Nano letters
Savinov V
(2012)
Flux exclusion superconducting quantum metamaterial: towards quantum-level switching.
in Scientific reports
Plum E
(2009)
Towards the lasing spaser: controlling metamaterial optical response with semiconductor quantum dots.
in Optics express
Plum E
(2011)
A combinatorial approach to metamaterials discovery
in Journal of Optics
Plum E
(2011)
Asymmetric transmission: a generic property of two-dimensional periodic patterns
in Journal of Optics
Plum E
(2009)
Planar metamaterial with transmission and reflection that depend on the direction of incidence
in Applied Physics Letters
Plum E
(2008)
Optical activity in extrinsically chiral metamaterial
in Applied Physics Letters
Plum E
(2009)
Metamaterial with negative index due to chirality
in Physical Review B
Plum E
(2009)
Metamaterials: optical activity without chirality.
in Physical review letters
Plum E
(2009)
Extrinsic electromagnetic chirality in metamaterials
in Journal of Optics A: Pure and Applied Optics
Plum E
(2016)
Specular optical activity of achiral metasurfaces
in Applied Physics Letters
Papasimakis N
(2008)
Metamaterial analog of electromagnetically induced transparency.
in Physical review letters
Papasimakis N
(2009)
Metamaterial with polarization and direction insensitive resonant transmission response mimicking electromagnetically induced transparency
in Applied Physics Letters
Papasimakis N
(2009)
Coherent and incoherent metamaterials and order-disorder transitions
in Physical Review B
Huang FM
(2008)
Nanohole array as a lens.
in Nano letters
Fedotov VA
(2012)
Low-loss plasmonic metamaterial based on epitaxial gold monocrystal film.
in Optics express
Fedotov VA
(2010)
Spectral collapse in ensembles of metamolecules.
in Physical review letters
Fedotov V
(2015)
Wavevector Selective Metasurfaces and Tunnel Vision Filters
in Light: Science & Applications
Chipouline A
(2012)
Analytical model for active metamaterials with quantum ingredients
in Journal of Optics
Chen Y
(2009)
Electron beam lithography for high density meta fish scale operational at optical frequency
in Microelectronic Engineering
Buchnev O
(2015)
Electrically Controlled Nanostructured Metasurface Loaded with Liquid Crystal: Toward Multifunctional Photonic Switch
in Advanced Optical Materials
Buchnev O
(2013)
Controlling intensity and phase of terahertz radiation with an optically thin liquid crystal-loaded metamaterial
in Applied Physics Letters
Buchnev O
(2020)
Metasurface-Based Optical Liquid Crystal Cell as an Ultrathin Spatial Phase Modulator for THz Applications
in ACS Photonics
Buchnev O
(2013)
Electro-optical control in a plasmonic metamaterial hybridised with a liquid-crystal cell.
in Optics express
Buchnev O
(2016)
Controlling Stiction in Nano-Electro-Mechanical Systems Using Liquid Crystals.
in ACS nano
Description | This award ended July 2014. Key findings were summarized in the previous report submitted 03 November 2014. |
Exploitation Route | This was summarized in the previous report submitted 03 November 2014 (award ended July 2014). |
Sectors | Other |
Description | This award ended July 2014. The summary was given in the previous report submitted 03 November 2014. |
Title | MAGNETIC FIELD GENERATOR |
Description | A metallic ring is made of two metals, wherein one metal forms a major arcuate portion and the other a minor arcuate portion of the ring, thereby forming a thermocouple-type structure as a result of the two inter-metallic junctions. The metallic ring supports a surface plasmon whose energy is matched to the energy, i.e. wavelength, of an incident light beam so that the oscillating electromagnetic field of the light resonates with the plasmon. The resonating plasmon causes a temperature difference to arise between the two inter-metallic junctions in the ring. The different Seebeck coefficients of the two metals results in the temperature difference causing a net current to flow around the ring, which in turn generates a magnetic field. Such a thermoelectric metamaterial ring transforms high frequency optical energy into long duration magnetic radiation pulses in the terahertz range. Applications of these devices include high density magnetic recording, magnetic field spectroscopy, and efficient terahertz radiation sources. |
IP Reference | US2013176836 |
Protection | Patent granted |
Year Protection Granted | 2013 |
Licensed | No |
Impact | TBA |