Summary
The network “Collective effects and optomechanics in ultra-cold matter” (ColOpt) will train early-stage researchers (ESR) in fundamental science and applications in the areas of cold atom and quantum physics, optical technologies and complexity science to promote European competiveness in emergent quantum technologies. It consists of nine academic nodes and three companies from six European countries, supported by two partners in Brazil and the USA, five further non-academic partners and one public-private partnership.
Collective, nonlinear dynamics and spontaneous self-organization are abundant in nature, sciences and technology and of central importance. Building on this interdisciplinary relevance, a particular novelty of ColOpt is the integration of classical and quantum self-organization. The research program focuses on collective interactions of light with laser-cooled cold and quantum-degenerate matter. We will explore innovative control of matter through optomechanical effects, identify novel quantum phases, enhance knowledge of long-range coupled systems and advance the associated trapping, laser and optical technologies, establishing new concepts in quantum information and simulation.
ColOpt combines cutting-edge science with training in complex instrumentation and methods to the highest level of technical expertise, both experimentally and theoretically, and fosters the development of transferable skills and critical judgement. Each ESR will be exposed to a broad spectrum of experimental, theoretical and industrial environments, to obtain core competence in one of them and the collaborative experience and skills to thrive in a truly international and intersectorial framework. ESRs will develop the capabilities to analyse and understand complex interactions, and will gain awareness of societal and entrepreneurial needs and opportunities. Taken together, this will enable them to excel in a variety of sectors of our diverse and rapidly changing society.
Collective, nonlinear dynamics and spontaneous self-organization are abundant in nature, sciences and technology and of central importance. Building on this interdisciplinary relevance, a particular novelty of ColOpt is the integration of classical and quantum self-organization. The research program focuses on collective interactions of light with laser-cooled cold and quantum-degenerate matter. We will explore innovative control of matter through optomechanical effects, identify novel quantum phases, enhance knowledge of long-range coupled systems and advance the associated trapping, laser and optical technologies, establishing new concepts in quantum information and simulation.
ColOpt combines cutting-edge science with training in complex instrumentation and methods to the highest level of technical expertise, both experimentally and theoretically, and fosters the development of transferable skills and critical judgement. Each ESR will be exposed to a broad spectrum of experimental, theoretical and industrial environments, to obtain core competence in one of them and the collaborative experience and skills to thrive in a truly international and intersectorial framework. ESRs will develop the capabilities to analyse and understand complex interactions, and will gain awareness of societal and entrepreneurial needs and opportunities. Taken together, this will enable them to excel in a variety of sectors of our diverse and rapidly changing society.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/721465 |
| Start date: | 01-01-2017 |
| End date: | 30-06-2021 |
| Total budget - Public funding: | 3 893 423,76 Euro - 3 893 423,00 Euro |
Cordis data
Original description
The network “Collective effects and optomechanics in ultra-cold matter” (ColOpt) will train early-stage researchers (ESR) in fundamental science and applications in the areas of cold atom and quantum physics, optical technologies and complexity science to promote European competiveness in emergent quantum technologies. It consists of nine academic nodes and three companies from six European countries, supported by two partners in Brazil and the USA, five further non-academic partners and one public-private partnership.Collective, nonlinear dynamics and spontaneous self-organization are abundant in nature, sciences and technology and of central importance. Building on this interdisciplinary relevance, a particular novelty of ColOpt is the integration of classical and quantum self-organization. The research program focuses on collective interactions of light with laser-cooled cold and quantum-degenerate matter. We will explore innovative control of matter through optomechanical effects, identify novel quantum phases, enhance knowledge of long-range coupled systems and advance the associated trapping, laser and optical technologies, establishing new concepts in quantum information and simulation.
ColOpt combines cutting-edge science with training in complex instrumentation and methods to the highest level of technical expertise, both experimentally and theoretically, and fosters the development of transferable skills and critical judgement. Each ESR will be exposed to a broad spectrum of experimental, theoretical and industrial environments, to obtain core competence in one of them and the collaborative experience and skills to thrive in a truly international and intersectorial framework. ESRs will develop the capabilities to analyse and understand complex interactions, and will gain awareness of societal and entrepreneurial needs and opportunities. Taken together, this will enable them to excel in a variety of sectors of our diverse and rapidly changing society.
Status
CLOSEDCall topic
MSCA-ITN-2016Update Date
28-04-2024
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Organisations
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| UNIVERSITY OF STRATHCLYDE (Coördinator)
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| CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS)
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| EBERHARD KARLS UNIVERSITAET TUEBINGEN (EKUT)
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| EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH
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| HOLOEYE PHOTONICS AG
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| M-SQUARED LASERS LIMITED
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| TOPTICA PHOTONICS AG
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| UNIVERSITA DEGLI STUDI DI MILANO
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| UNIVERSITAET INNSBRUCK
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| UNIVERSITAT DES SAARLANDES (UDS)
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| UNIVERSITY OF GLASGOW
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| WESTFAELISCHE WILHELMS-UNIVERSITAET MUENSTER (WWU)