Heimat: High enhancement and Interference of Molecular Transitions (Nanoantennas for higher-multipole light-matter coupling) (Q84167)
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Project Q84167 in Poland
Language | Label | Description | Also known as |
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English | Heimat: High enhancement and Interference of Molecular Transitions (Nanoantennas for higher-multipole light-matter coupling) |
Project Q84167 in Poland |
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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En raison de leur extraordinaire capacité à adapter la distribution spatiale et spectrale de la lumière, les Nanoantennas sont des plates-formes candidates parfaites pour améliorer d’une manière contrôlable les interactions entre la matière et la lumière. L’objectif du projet est d’exploiter les Nanoantennas pour augmenter drastiquement la probabilité d’un couplage multipolaire plus élevé de la lumière aux molécules ou, au contraire, d’atténuer les événements hautement probables. À cette fin, nous prévoyons de combiner des méthodes de chimie quantique, de nanoplasmonique et de physique moléculaire. En perspective, le projet peut permettre le développement de nouveaux moyens de contrôle de l’état quantique de la matière et la génération d’états exotiques de lumière, avec des applications dans la spectroscopie atomique et moléculaire, l’optique quantique et les technologies de l’information. (French)
30 November 2021
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Aufgrund ihrer außergewöhnlichen Fähigkeit, die räumliche und spektrale Lichtverteilung anzupassen, sind Nanoantennas perfekte Kandidatenplattformen, um die Wechselwirkungen zwischen Materie und Licht kontrollierbar zu verbessern. Ziel des Projekts ist es, Nanoantennen auszunutzen, um die Wahrscheinlichkeit einer – typischerweise sehr schwachen – höheren multipoligen Kopplung von Licht an Moleküle drastisch zu erhöhen, oder im Gegenteil, hochwahrscheinliche Ereignisse abzuschwächen. Dazu planen wir, Methoden der Quantenchemie, Nanoplasmonics und Molekularphysik zu kombinieren. In der Perspektive kann das Projekt eine Entwicklung neuartiger Mittel zur Quantenzustandskontrolle der Materie und der Erzeugung exotischer Lichtzustände ermöglichen, mit Anwendungen in der Atom- und Molekularspektroskopie, Quantenoptik und Informationstechnologien. (German)
7 December 2021
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Door hun buitengewone vermogen om ruimtelijke en spectrale lichtverdeling aan te passen, zijn Nanoantenna’s perfecte kandidaatplatforms om de interacties tussen materie en licht op een controleerbare manier te verbeteren. Het doel van het project is om Nanoantennas te exploiteren om de kans op — meestal zeer zwakke — hogere multipole koppeling van licht aan moleculen drastisch te vergroten, of integendeel — om zeer waarschijnlijke gebeurtenissen te verminderen. Hiervoor zijn we van plan om methoden van kwantumchemie, nanoplasmonica en moleculaire fysica te combineren. In perspectief kan het project een ontwikkeling mogelijk maken van nieuwe middelen voor kwantumstaatcontrole van materie en het genereren van exotische lichttoestanden, met toepassingen in atomaire en moleculaire spectroscopie, kwantumoptica en informatietechnologieën. (Dutch)
16 December 2021
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Grazie alla loro straordinaria capacità di adattare la distribuzione spaziale e spettrale della luce, le Nanoantennas sono piattaforme candidate perfette per migliorare in modo controllabile le interazioni tra materia e luce. L'obiettivo del progetto è quello di sfruttare Nanoantennas per aumentare drasticamente la probabilità — tipicamente molto debole — di un accoppiamento multipolare più elevato di luce con molecole, o al contrario, di attenuare eventi altamente probabili. Con questo scopo pianifichiamo di combinare metodi di chimica quantistica, nanoplasmonica e fisica molecolare. In prospettiva, il progetto può consentire lo sviluppo di nuovi mezzi di controllo dello stato quantistico della materia e la generazione di stati esotici di luce, con applicazioni in spettroscopia atomica e molecolare, ottica quantistica e tecnologie dell'informazione. (Italian)
16 January 2022
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Identifiers
POIR.04.04.00-00-1B2E/16
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