European XFEL: operation of second X-ray light source started
13 Feb 2018 | Source: DESY
Another important milestone achieved in the development of the facility
The second X-ray light source has successfully been taken into operation at European XFEL, the world’s largest X-ray laser located in the Hamburg metropolitan region. The X-ray light source SASE3 successfully produced X-ray laser light flashes in one of the underground tunnels. SASE3 will serve two experiment stations scheduled to begin user operation at the end of the year. Since the start of operation in September 2017, 340 scientists from across the globe have already used the facility for their research. The successful start of operation of the new SASE 3 source will enable the facility to increase the number of users further.
European XFEL Managing Director Prof. Robert Feidenhans’l said: “The construction and commissioning of the new light source are complex processes, for which we and our DESY colleagues have been preparing intensely for these last weeks and months. We are very happy that the commissioning of this second light source SASE 3 has also run so smoothly, and that both sources, SASE1 and SASE3, produce light simultaneously. For this I would like to thank all those involved, in particular the accelerator team from DESY. We continue to be on schedule to start operation at all four experiment stations currently under construction, beginning with the first two instruments in November. The remaining two will start operation at the beginning of 2019. This will increase our current capacity threefold by mid 2019.”
The new X-ray light source SASE3 uses electrons that have first passed through the light source SASE1 where they have already produced laser light. SASE3 provides X-ray laser light for the experiment stations SQS and SCS, which are currently under construction. The SQS instrument (Small Quantum Systems) is specialized for the study of fundamental processes such as how chemical bonds break in molecules, or what happens on the atomic level when materials absorb many photons at the same time. The SCS instrument (Spectroscopy and Coherent Scattering) will focus on the investigation of fast changes in material properties, such as within magnetic materials, materials that withstand extreme temperatures, superconducting materials, and also biological samples. The research at these two stations has relevance for basic research but also for the development of new materials in the fields of IT, medicine, energy research, and catalysts, among others.
Dr. Winfried Decking, responsible for the operation of the European XFEL accelerator at DESY, explained: “The first X-ray laser light at SASE3 is a special moment for the technicians, engineers, and scientists who, over many years, have contributed to the construction of the facility with great care and precision. The fact that we have achieved this milestone so soon after the first round of user operation also shows how well the operation teams from DESY and European XFEL work together.”