Research

Short project title: Gate2µ (Gate2mu)
The registration number: CZ.02.1.01/0.0/0.0/15_003/0000476

This is a project from the OP Research, Development and Training, call Support excellent research teams in priority axis 1 OP - Strengthening the capacity for quality research.

The project aims at introducing in electron microscopes novel techniques responding to needs of nanotechnologies, development of advanced materials, and application of knowledge acquired in biology and medicine. This concerns imaging of crystals including 2D ones, non-conductive surfaces, imaging the wave-optical contrasts, etc. Novel materials, technologies of their processing and novel components of the scanning electron microscopes will be developed, accompanied with adequate methodology.

The project aims at introducing in electron microscopes novel techniques responding to needs of nanotechnologies, development of advanced materials, and application of knowledge acquired in biology and medicine. This concerns imaging of crystals including 2D ones, non-conductive surfaces, imaging the wave-optical contrasts, etc. Novel materials, technologies of their processing and novel components of the scanning electron microscopes will be developed, accompanied with adequate methodology.

The project aims at introducing in electron microscopes novel techniques responding to needs of nanotechnologies, development of advanced materials, and application of knowledge acquired in biology and medicine. This concerns imaging of crystals including 2D ones, non-conductive surfaces, imaging the wave-optical contrasts, etc. Novel materials, technologies of their processing and novel components of the scanning electron microscopes will be developed, accompanied with adequate methodology.

SIMDALEE2 is a research and training network dedicated to the investigation of low energy electrons near solid surfaces. SIMDALEE2- Sources, Interaction with Matter, Detection and Analysis of Low Energy Electrons is a Marie Curie Initial Training Network (ITN) financed by the European Commission (grant number 606988 under the FP7-PEOPLE-2013-ITN action of the EC).

The aim of the project is to implement a set of optical and electronic components, which allow operation of photonic services on fiber and freespace optical communication links with a high degree of compensation for transport delay of transmitted information. These elements will include photonic free-space optical link, photonic time delay compensation unit and unit for transport delays monitoring on photonic links.

Nová generace super přesných digitálně řízených strojů v automobilovém průmyslu umožňuje opracovávat strojírenské výrobky s přesností až v řádu nanometrů. Pro zajištění nejvyššího stupně spolehlivosti však tato přesná výroba vyžaduje stoprocentní kontrolu dosažené hodnoty přesnosti. Cílem projektu je výzkum a vývoj unikátních optických metod, které dovolí v automatizovaných výrobních linkách měřit geometrické rozměry strojírenských výrobků s rozlišením blížícím se nanometrové hranici.

A scientific and technological paradigm change is taking place, concerning the way that very high performance time and frequency reference signals are distributed, moving from radio signal broadcasting to signal transport over optical fibre networks. The latter technology demonstrates performance improvements by orders of magnitude, over distances up to continental scale. Research infrastructures are developing several related technologies, adapted to specific projects and applications.