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Angular studies of photoelectrons in innovative research environments

Angular studies of photoelectrons in innovative research environments

Ziel

In the ASPIRE project, whose academic and industrial beneficiaries are world leading in their complementary fields of expertise, the overarching research goal is the measurement of photoelectron angular distributions (PADs) in the “molecular frame” (MF) of systems of biological relevance. These MF-PADs can be interpreted as electron diffraction patterns, achieved by “illuminating the molecule from within”, and enable the shapes and motions of individual molecules to be interrogated. Such knowledge is needed for the development of new medicines (the shapes of drug molecules dictate their function) and new materials (efficient solar cells can be constructed if energy dissipation processes in molecules are understood). Progress in this area is highly technologically driven, requiring high repetition rate, short wavelength light sources and fast detectors. The input of private sector beneficiaries is therefore critical to the scientific objectives, as well as to the enhanced training environment. Work packages on advanced light source and detector developments will feed into the overall goal through secondments, regular virtual meetings and face-to-face network meetings. The symbiosis of the developments that will take place in ASPIRE will create a research and training environment that is world-leading and optimally tailored to capitalise, for example, on the investment that has been made in the European XFEL facility. The ESRs will be trained in world-leading laboratories and will benefit from the exchange of best practice among beneficiaries and partners, and from unique training events. ASPIRE will therefore ensure that European research remains competitive in the global market, and that the trained researchers will be uniquely well-placed to contribute to the development of novel instrumentation in the future.
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Koordinator

THE UNIVERSITY OF NOTTINGHAM

Adresse

University Park
Ng7 2rd Nottingham

Vereinigtes Königreich

Aktivitätstyp

Higher or Secondary Education Establishments

EU-Beitrag

€ 546 575,76

Beteiligte (8)

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ROENTDEK - HANDELS GMBH

Deutschland

EU-Beitrag

€ 249 216,48

JOHANN WOLFGANG GOETHE-UNIVERSITATFRANKFURT AM MAIN

Deutschland

EU-Beitrag

€ 249 216,48

PHOTEK LIMITED

Vereinigtes Königreich

EU-Beitrag

€ 273 287,88

CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS

Frankreich

EU-Beitrag

€ 262 875,60

AARHUS UNIVERSITET

Dänemark

EU-Beitrag

€ 580 163,76

CONSIGLIO NAZIONALE DELLE RICERCHE

Italien

EU-Beitrag

€ 258 061,32

FORSCHUNGSVERBUND BERLIN EV

Deutschland

EU-Beitrag

€ 498 432,96

SYNCHROTRON SOLEIL SOCIETE CIVILE

Frankreich

EU-Beitrag

€ 262 875,60

Partner (6)

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Cronologic Gmbh

AMPLITUDE TECHNOLOGIES SA

THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD

STIFTUNG DEUTSCHES ELEKTRONEN-SYNCHROTRON DESY

UNIVERSITAET KASSEL

KORE TECHNOLOGY LTD

Projektinformationen

ID Finanzhilfevereinbarung: 674960

Status

Laufendes Projekt

  • Startdatum

    1 März 2016

  • Enddatum

    29 Februar 2020

Finanziert unter:

H2020-EU.1.3.1.

  • Gesamtbudget:

    € 3 180 705,84

  • EU-Beitrag

    € 3 180 705,84

Koordiniert durch:

THE UNIVERSITY OF NOTTINGHAM

Vereinigtes Königreich