View of the Experimental Hall and the storage ring (Credit: ESRF/Stef Candé)
Media Category: Image
View of the ID32 beamline (Credit: ESRF/Stef Candé)
View of the ID32 beamline (Credit: ESRF/Stef Candé)
View inside the booster synchrotron (Credit: @ESRF/Stef Candé)
View inside the booster synchrotron (Credit: @ESRF/Stef Candé)
The European synchrotron viewed from the Néron (Credit: ESRF/P.Jayet)
The European synchrotron viewed from the Néron (Credit: ESRF/P.Jayet)
View inside the ID20 beamline (Credit: ESRF/McBride)
View inside the ID20 beamline (Credit: ESRF/McBride)
Aerial view of the European Synchrotron (Credit: ESRF/P.Jayet)
Aerial view of the European Synchrotron (Credit: ESRF/P.Jayet)
EUROfusion consortium members and the devices (Credit: EUROfusion CCBY 4.0)
The map shows EUROfusion consortium members and the devices. The consortium manages the European fusion programme under the auspices of Euratom. EUROfusion brings together 30 research organisations and universities from 26 European Union member states plus Switzerland and Ukraine. (Credit: EUROfusion CCBY 4.0)
Joint European Torus experiment, JET (Credit: EUROfusion CCBY 4.0)
An insight into the vessel of the European fusion experiment JET. The Culham Centre for Fusion Energy (CCFE) in the United Kingdom hosts EUROfusion’s flagship experiment which is the largest using magnetic confinement. Work on JET has influenced the design of ITER – which will produce fusion power on the scale of a power plant starting operation in the mid 2020s. (Credit: EUROfusion CCBY 4.0)
Rosetta’s comet on 27 March 2016 (Credit: ESA/Rosetta/NavCam – CC BY-SA IGO 3.0)
Rosetta's comet on 27 March 2016 (Credit: ESA/Rosetta/NavCam – CC BY-SA IGO 3.0)
l hall and storage ring building of the ESRF. (Credit: ESRF/P. Jayet)
l hall and storage ring building of the ESRF. (Credit: ESRF/P. Jayet)