EU/ERC Projekte 

Zur Forschung in der Fachgruppe Physik/Astronomie gehört auch die Beteiligung am EU-Forschungsrahmenprogramm Horizon Europe, das von großer Bedeutung ist.

EU-Verbundprojekte, an denen die Universität Bonn als Partner beteiligt ist

Partner

Prof. Dr. Simon Stellmer
Physikalisches Institut 
Nussallee 12
53115 Bonn

Abstract

Lasers are the heart of today’s quantum science and technology. Since their first invention they have been a flourishing research area and in a few decades have found application in an enormous variety of fields, eventually populating many aspects of our everyday life, also outside of the research laboratory. Since the beginning, there has been a natural push towards extending the accessible frequency range of coherent radiation, eventually covering the whole infrared (IR), visible (VIS), and ultraviolet (UV) spectrum. The large energy and momenta of UV photons offers enormous potential for novel applications. However, for the same reason, deep technological challenges remain before they can be used effectively in science and technology. UVQuanT will tackle this challenge by developing the necessary industrial and scientific expertise to realise new-era, cost-effective lasers and laser optics for the UV and DUV region, positioning the EU as the front-runner in this technology. UVQuanT will focus on new ways of increasing the production of coherent radiation in the UV and DUV region, developing and testing lower cost, more rugged and practical solutions, and will test these novel systems in a range of experiments targeting quantum technology applications. Combining the talent and expertise of iindustrial and academic partners, UVQuanT will build strong relationships for establishing a path for next-generation quantum
technologies.

Koordinator

Fritz Haber Institute - Max-Planck-Gesellschaft

Laufzeit 

01.10.2022 - 30.09.2026

Partner

Dr. Fabian Hügging
Physikalisches Institut
Wegelerstr. 8
53115 Bonn

Abstract

Particle physics attracts a global community of more than 10,000 scientists, and Europe’s leadership, with CERN as its major laboratory, is internationally recognised. Discoveries are technology-driven; more performant accelerators require innovative detectors to unfold their scientific potential, driving available or emerging technologies beyond their limits. The role of industry is rapidly increasing, due to the need for highly specialised equipment and due to the scale of the installations, where thousands or millions of components require industrial-scale infrastructure.
AIDAinnova advances the European detector development infrastructures through fostering an intensified co-innovation with industry. Based on the success of the previous EC-funded initiatives AIDA and AIDA-2020, the project as a novel element fully integrates commercial players, 10 industrial companies and 3 RTOs, together with academic institutions into the consortium, which comprises 46 partners from 15 countries. Knowledge transfer will be catalysed through co-innovative work in common detector projects, and it will strengthen the competence and competitiveness of the industrial partners in other markets.
AIDAinnova provides state-of-the-art upgrades of research infrastructure such as test beam and irradiation facilities, and it covers all key technologies for future detectors, following the guidance by the European Particle Physics Strategy Update. The focus is on strategic developments at intermediate technological readiness levels TRL 2-7, where developments are not yet as specific to one particular experiment as in the engineering phase, and it also includes prospective R&D at TRL 1. Therefore, AIDAinnova will unfold synergies by bringing together the expertise from communities aiming at various future projects and maximise the use of resources. Through the large leverage on matching funds from national sources the project leads to enhanced coherence and coordination at a European level.

Laufzeit

01.04.2021 - 31.03.2025

Website

Partner

Prof. Dr. Simon Stellmer
Physikalisches Institut 
Nussallee 12
53115 Bonn

Abstract

Building on several joint European efforts and its direct precursor, CLONETS, the EU-funded CLONETS-DS project will design a sustainable, pan-European, ultra-precise time-and-frequency reference system available to the European research community. Specifically, this system will be able to transmit ultra-precise time and frequency information via optical fibres. The project will define the architecture, design the engineering model and strategies, outline roadmaps and elaborate on plans for the integration of the necessary environment into the European landscape. The project’s success will elevate Europe’s research community into a leading position to meet the needs created by technological developments such as cloud computing, the Internet of Things and Industry 4.0.

Koordinator

Geant Vereniging

Laufzeit

01.10.2020 - 30.09.2022

Website2

Partner

Prof. Dr. Franz Josef Hormes
Physikalisches Institut 
Nussallee 12
53115 Bonn

Abstract

SOLARIS is the first synchrotron built in Poland, under the auspices of the Jagiellonian University. The EU-funded Sylinda project will boost the research capacity of SOLARIS. The synchrotron radiation facility will thus be able to upgrade its X-ray absorption spectrometer. This could result in more effective collaborations with industrial partners in the pharmaceutical, biology, chemical and cosmetics sectors. The staff will be reinforced with an industrial liaison officer, a beamline scientist and a grant officer. Special focus will be placed on improving project management, proposal preparation and administration skills. Furthermore, the project will organise a summer school on science management for early-stage researchers. Their active participation in industrial research projects will broaden their views regarding industry innovation and funding opportunities.

Koordinator

Uniwersytet Jagiellonski

Laufzeit

01.01.2021 - 31.12.2023

Partner

Prof. Dr. Hartmut Schmieden
Physikalisches Institut
Nussallee 12
53115 Bonn

Abstract

In particle physics, a fundamental mechanism called strong interaction is responsible for strong nuclear force. This is the base of the Standard Model theory. Researchers are seeking to better understand and explain basic topics in this extremely promising field. They do this by conducting experimental and theoretical studies, mainly through particle collisions at low and high energies and calculations. Developments in state-of-the-art detectors are among their goals. The EU-funded STRONG-2020 project supports a close collaboration in a consortium involving 44 groups, 14 EU Member States, CERN and other institutions from numerous countries. It will create new possibilities, both in science and in applied research, for advanced medical and technological applications.

Koordinator

Centre National De La Recherche Scientifique CNRS

Laufzeit

01.06.2019 - 31.05.2023

Website

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