project . 2017 - 2022 . On going

QuPoPCoRN

Quantum Particles on Programmable Complex Reconfigurable Networks
Open Access mandate for Publications European Commission
  • Funder: European CommissionProject code: 725366 Call for proposal: ERC-2016-COG
  • Funded under: H2020 | ERC | ERC-COG Overall Budget: 1,963,750 EURFunder Contribution: 1,963,750 EUR
  • Status: On going
  • Start Date
    01 Jul 2017
    End Date
    30 Jun 2022
  • Detailed project information (CORDIS)
  • Open Access mandate
    Research Data: No
Description
Understanding the complex interactions and dynamics of multiple quantum particles within large networks is an extremely challenging task, but doing so reveals the underlying structure of an enormously diverse range of phenomena. Therefore, a reliable platform to investigate complex quantum network dynamics, which incorporates the rich interplay between noise, coherence and nonclassical correlations, will be an extremely powerful tool. Classical optical networks have been widely used to simulate a broad range of propagation phenomena across many disparate areas of physics, chemistry and biology, based on coherent interference of waves. At the quantum level, the q...
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Partners
University of Paderborn
Description
Understanding the complex interactions and dynamics of multiple quantum particles within large networks is an extremely challenging task, but doing so reveals the underlying structure of an enormously diverse range of phenomena. Therefore, a reliable platform to investigate complex quantum network dynamics, which incorporates the rich interplay between noise, coherence and nonclassical correlations, will be an extremely powerful tool. Classical optical networks have been widely used to simulate a broad range of propagation phenomena across many disparate areas of physics, chemistry and biology, based on coherent interference of waves. At the quantum level, the q...
Read more
Partners
University of Paderborn
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