EU-Project DIAMANT
Project title: Diamond based atomic nanotechnologies
EU-Program Acronym: FP7-ICT
Programme: Future and Emerging Technologies
Project coordinator: Fedor Jelezko
The DIAMANT team has pioneered the discovery and development of diamond as a uniquely promising material system for solid-state molecular technologies: Diamond has exceptional optical and magnetic properties that are associated with dopant complexes - or "solid-state molecules" - in the diamond lattice. The DIAMANT project will develop new technologies to enable placement of exactly one atom at a time into a selected location in the diamond lattice with nanometre precision. Control of magnetic and optical interactions between single dopants will enable engineering of artificial molecules with radically new functionalities. Applications in the fields of sensing and imaging at the nanoscale, novel data storage and information processing will be developed both theoretically and experimentally. The ability to control magnetic interactions on the atomic scale will enable miniaturisation of electronic devices down to the ultimate size limit - single molecules. We will manufacture photonic crystal cavities and plasmonic structures in diamond to realise the optical interfaces required for reading-in and reading-out information from these molecular-scale devices. Molecular sensors operating under ambient conditions promise to revolutionise the field of biological imaging and precision sensing. In the long term, determination the structure of single proteins will come within reach.
Working principle of the nm resolution deterministic ion implanter based on laser cooled ions trapped in a linear Paul trap (research group Prof. Schmidt-Kaler, Uni Mainz; Video M. Ferner)
Potential curve of trapped ions
news
"Arrays of open, independently tunable microcavities" arXiv:1309.0023 [quant-ph]
"Nanoscale Heat Engine Beyond the Carnot Limit" Physical Review Letters 112 (2014)
"The spin–spin zero-field splitting tensor in the projector-augmented-wave method" J Phys Condens Matter 26 (2014)
"Electronic Structure of the Silicon Vacancy Color Center in Diamond" Phys Rev Lett 112 (2014)
"Manipulating a qubit through the backaction of sequential partial measurements and real-time feedback" Nature Physics 10 (2014)
"Electrically and mechanically tunable electron spins in silicon carbide color centers" arXiv: 1311.6832
"Nuclear Magnetic Resonance Spectroscopy on a (5-Nanometer)(3) Sample Volume" Science 339
"High fidelity spin entanglement using optimal control" accepted in Nature Communications (2014)
"Molecular-sized fluorescent nanodiamonds" Nature Nanotechnology 9 (2014)
DIAMANT is on facebook https://www.facebook.com/diamantproject
"Future and Emerging Technologies": FET is an EU programme for new ideas and themes for long-term research in the area of information and communication technologies