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Researcher Details
 
Name: Professor SA Maier
Organisation: Imperial College London
Department: Physics
Current EPSRC-Supported Research Topics:
Light-Matter Interactions Materials Characterisation
Materials Synthesis & Growth

Current EPSRC Support
EP/V048880/1 Space-time meta-surfaces for light waves(C)
EP/P033369/1 Nanoscale sculpturing of single photons with dielectrics(P)
EP/M013812/1 REACTIVE PLASMONICS: OPTICAL CONTROL OF ELECTRONIC PROCESSES AT INTERFACES FOR NANOSCALE PHYSICS, CHEMISTRY AND METROLOGY(C)
Previous EPSRC Support
EP/M025012/1 High Temperature, High Efficiency PV-Thermal Solar System(C)
EP/M000044/1 Optical Fabrication and Imaging Facility for three-dimensional sub-micron designer materials for bioengineering and photonics(P)
EP/M001121/1 TERACELL: Integrated Microwave-to-Terahertz Sensors for label-free circulating tumour cell detection(C)
EP/L024926/1 Mathematical fundamentals of Metamaterials for multiscale Physics and Mechanics(C)
EP/K016407/1 Integrated graphene - based sensor devices via scalable microfabrication process development based on graphene - metal multilayer deposition(C)
EP/H046887/1 Materials World Network: Nano-structured materials from nanoparticle- and block copolymer assemblies for nanophotonics and optoelectronics(P)
EP/H000917/2 Active Plasmonics: Electronic and All-optical Control of Photonic Signals on Sub-wavelength Scales(C)
EP/H000844/1 Silicon emission technologies based on nanocrystals(P)
EP/H006400/1 Interfacing Carbon Nanotubes with Nanoantennas for Simulataneous Multifunctional Spectroscopy and Electrical Nanocharacterization(P)
EP/H000917/1 Active Plasmonics: Electronic and All-optical Control of Photonic Signals on Sub-wavelength Scales(C)
EP/G031819/1 Active Plasmonics and Perfect Lenses with Quantum Metamaterials.(C)
EP/G041768/1 Unravelling energy transport in plasmon waveguides using dual-probe near-field optical microscopy: A feasibility study(P)
EP/F018622/1 Aerogels in Fibre-Optics(C)
EP/C522834/2 Plasmonics and Near-Field Optics: Towards the limits of electromagnetic energy confinement(P)
EP/F012810/1 NANOPHOTONICS: from fundamentals to real life applications (EPSRC Sponsored UK-Taiwan Collaboration Program for Success through People)(C)
EP/D058074/1 Photonic Crystal Fibres: Foundation for Novel Science and new Applications(C)
EP/C005694/1 Photonic Crystal Fibres: Novel Science and New Applications(C)
EP/C522834/1 Plasmonics and Near-Field Optics: Towards the limits of electromagnetic energy confinement(P)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator