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Quantum-enhanced Sensing via Quantum Control

Ziel

Quantum technologies aim to exploit quantum coherence and entanglement, the two essential elements of quantum physics. Successful implementation of quantum technologies faces the challenge to preserve the relevant nonclassical features at the level of device operation. It is thus deeply linked to the ability to control open quantum systems. The currently closest to market quantum technologies are quantum communication and quantum sensing. The latter holds the promise of reaching unprecedented sensitivity, with the potential to revolutionize medical imaging or structure determination in biology or the controlled construction of novel quantum materials. Quantum control manipulates dynamical processes at the atomic or molecular scale by means of specially tailored external electromagnetic fields. The purpose of QuSCo is to demonstrate the enabling capability of quantum control for quantum sensing and quantum measurement, advancing this field by systematic use of quantum control methods. QuSCo will establish quantum control as a vital part for progress in quantum technologies.
QuSCo will expose its students, at the same time, to fundamental questions of quantum mechanics and practical issues of specific applications. Albeit challenging, this reflects our view of the best possible training that the field of quantum technologies can offer. Training in scientific skills is based on the demonstrated tradition of excellence in research of the consortium. It will be complemented by training in communication and commercialization. The latter builds on strong industry participation whereas the former existing expertise on visualization and gamification and combines it with more traditional means of outreach to realize target audience specific public engagement strategies.
Leaflet | Map data © OpenStreetMap contributors, Credit: EC-GISCO, © EuroGeographics for the administrative boundaries

Koordinator

UNIVERSITAET KASSEL

Adresse

Monchebergstrasse 19
34125 Kassel

Deutschland

Aktivitätstyp

Higher or Secondary Education Establishments

EU-Beitrag

€ 249 216,48

Beteiligte (15)

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AARHUS UNIVERSITET

Dänemark

EU-Beitrag

€ 290 081,88

CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS

Frankreich

EU-Beitrag

€ 262 875,60

COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES

Frankreich

EU-Beitrag

€ 262 875,60

IBM RESEARCH GMBH

Schweiz

EU-Beitrag

€ 397 840,14

INSTITUT NATIONAL DE RECHERCHE ENINFORMATIQUE ET AUTOMATIQUE

Frankreich

EU-Beitrag

€ 262 875,60

NVISION IMAGING TECHNOLOGIES GMBH

Deutschland

EU-Beitrag

€ 249 216,48

TTI-TECHNOLOGIE-TRANSFER-INITIATIVEGMBH AN DER UNIVERSITAT STUTTGART

Deutschland

EU-Beitrag

€ 249 216,48

TECHNISCHE UNIVERSITAET MUENCHEN

Deutschland

EU-Beitrag

€ 249 216,48

TECHNISCHE UNIVERSITAET WIEN

Österreich

EU-Beitrag

€ 255 934,08

UNIVERSITAT DES SAARLANDES

Deutschland

EU-Beitrag

€ 373 824,72

UNIVERSITAET ULM

Deutschland

EU-Beitrag

€ 41 536,08

THALES SA

Frankreich

EU-Beitrag

€ 262 875,60

COMMUNAUTE D' UNIVERSITES ET ETABLISSEMENTS UNIVERSITE BOURGOGNE - FRANCHE - COMTE

Frankreich

EU-Beitrag

€ 262 875,60

UNIVERSITA DEGLI STUDI DI PADOVA

Italien

EU-Beitrag

€ 128 402

FORSCHUNGSZENTRUM JULICH GMBH

Deutschland

EU-Beitrag

€ 83 072,16

Partner (6)

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Diamond Nanotechnologies

MUQUANS

National Instruments

Peliquan Technologies

UNIVERSITAET STUTTGART

GlaserSystems

Projektinformationen

ID Finanzhilfevereinbarung: 765267

Status

Laufendes Projekt

  • Startdatum

    1 November 2017

  • Enddatum

    31 Oktober 2021

Finanziert unter:

H2020-EU.1.3.1.

  • Gesamtbudget:

    € 3 881 934,98

  • EU-Beitrag

    € 3 881 934,98

Koordiniert durch:

UNIVERSITAET KASSEL

Deutschland