Q84167 (Q84167): Difference between revisions
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(Created claim: summary (P836): Due to their extraordinary ability to tailor spatial and spectral distribution of light, nanoantennas are perfect candidate platforms to enhance in a controllable manner interactions between matter and light. The aim of the project is to exploit nanoantennas to drastically increase the probability of – typically very weak – higher multipole coupling of light to molecules, or on the contrary – to attenuate highly probable events. For this purpose...) |
(Changed label, description and/or aliases in 1 language: remove_english_label) |
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Revision as of 12:29, 14 October 2020
Project in Poland financed by DG Regio
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| English | No label defined |
Project in Poland financed by DG Regio |
Statements
468,842.0 zloty
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468,842.0 zloty
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100.0 percent
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1 October 2016
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30 November 2018
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UNIWERSYTET MIKOŁAJA KOPERNIKA W TORUNIU
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Due to their extraordinary ability to tailor spatial and spectral distribution of light, nanoantennas are perfect candidate platforms to enhance in a controllable manner interactions between matter and light. The aim of the project is to exploit nanoantennas to drastically increase the probability of - typically very weak - higher multipole coupling of light to molecules, or on the contrary - to attenuate highly probable events. For this purpose we plan to combine methods of quantum chemistry, nanoplasmonics and molecular physics. In perspective, the project may enable a development of novel means of quantum state control of matter and generation of exotic states of light, with applications in atomic and molecular spectroscopy, quantum optics and information technologies. (Polish)
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Due to their extraordinary ability to tailor spatial and spectral distribution of light, nanoantennas are perfect candidate platforms to enhance in a controllable manner interactions between matter and light. The aim of the project is to exploit nanoantennas to drastically increase the probability of – typically very weak – higher multipole coupling of light to molecules, or on the contrary – to attenuate highly probable events. For this purpose we plan to combine methods of quantum chemistry, nanoplasmonics and molecular physics. In perspective, the project may enable a development of novel means of quantum state control of matter and generation of exotic states of light, with applications in atomic and molecular spectroscopy, quantum optics and information technologies. (English)
14 October 2020
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Identifiers
POIR.04.04.00-00-1B2E/16
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