Euspen is a community of leading industrialists and researchers working in the field of precision, micro and nano engineering with representation across 32 countries worldwide. Euspen's focus is on: Nano-precision manufacturing; Design and build of ultra-precision machine systems; Characterisation: metrology systems, instruments and techniques.
EuMaT has been launched in order to assure optimal involvement of industry and other important stakeholders in the process of establishing of R&D priorities in the area of advanced engineering materials and technologies.
Covering approximately 400 members from 27 countries in Europe and continuously growing, the Platform acts as an exchange forum for the topics of industrial manufacturing: materials, equipment, components. It aims to support industry growth in this new field by the development of a common R&D and education strategy and by enabling close cooperation of SME, Industry and Research Institutions.
The European Theoretical Spectroscopy Facility is a User Facility charged with providing support and service to research under way in academic, government and industrial laboratories. All domains that need knowledge about electronic excitations, transport and spectroscopy will benefit from the ETSF, such as condensed matter physics and chemistry, biology, materials and nanoscience. Theoretical Spectroscopy reveals the mechanisms of electronic excitations and can predict new materials properties. This combination of quantum mechanics theory and numerical calculations constitutes an approach that is complementary to experiment.
The European EuroQUAM Program focuses on four themes with linked objectives: Atomic quantum gases with controllable interactions; Formation of molecules in ultracold atomic gases; Cooling molecules; and Ultracold plasmas and Rydberg gases.
The overall objective of EuroSQIP is to develop a 3/4-qubit quantum information processor (QIP) capable of running elementary quantum algorithms and protocols; demonstrating quantum state control of a macroscopic multi-partite system; demonstrating entanglement and entanglement transfer.
EXCELL's objectives are aimed at overcoming the fragmentation of the European research landscape in the area of multifunctional films. EXCELL moves frontiers of science and technology related to multifunctional films and improves European competitiveness by technology transfer. EXCELL's results will find a wide range of applications such as low-friction coatings earmarked for a wide use in mechanical engineering, new protective anticorrosion nano-films to be used in construction, marine and land transportation, etc., novel coatings with imbedded nano-clusters to be used in computer industry, etc.
This program is comprised of three major components: arts and sciences, electrical engineering technology, and free electives. The electrical engineering technology component consists of core and concentration requirements in addition to electrical technology elective credits.