DESY News: DESY creates new research opportunities at X-ray laser FLASH

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2015/05/20
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DESY creates new research opportunities at X-ray laser FLASH

Hamburg’s mayor Olaf Scholz and the Swedish state secretary Anders Lönn name the experimental halls

DESY opens new vistas into the nanocosm at its pioneering X-ray laser FLASH. A comprehensive technological upgrade and expansion of the facility enables entirely new experimental opportunities and opens up groundbreaking technologies to the international scientific community. At a symbolic ceremony, Olaf Scholz, First Mayor of Hamburg, and Anders Lönn, State Secretary to Sweden’s Minister for Higher Education and Research, named the two FLASH experimental halls after the pioneer physicists and Nobel Prize winners Albert Einstein and Kai Siegbahn. “The further technical refinement of our successful X-ray laser FLASH will now give researchers from all over the world even more precise insights into the nanocosm,” said the Chairman of DESY’s Board of Directors, Helmut Dosch.

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In a symbolic ceremony, the two FLASH experimental halls were named after Nobel laureates Albert Einstein and Kai Siegbahn by Beatrix Vierkorn-Rudolph of the Federal Ministry of Research, the Swedish secretary of state Anders Lönn, DESY director Helmut Dosch, Hamburg's mayor Olaf Scholz and Hans Siegbahn, son of Kai Siegbahn (from left to right). Credit: Lars Berg/DESY
In future, scientists will be able to peer into the nanocosm using FLASH at up to twelve different experimental stations, to make film recordings of chemical reactions, for instance, or to examine the dynamics of new types of data storage device, or to observe biomolecules at work. The research capacity of the X-ray laser is thereby being doubled. “The double FLASH is a further element by which the DESY Campus in Bahrenfeld is being expanded, turning it into one of the world’s leading sites for studying the structure of materials,” emphasised Scholz.

“We are greatly honoured that you chose to name one of the laboratory halls after the Swedish scientist Kai Siegbahn,” said Lönn. The Swedish-German cooperation in the framework of the Röntgen Ångström Cluster was not only bringing together world-class research in Germany and Sweden, Lönn emphasised. The comprehensive research infrastructures in the region are also very competitive in attracting high-tech industries.

“With the FLASH expansion new scientific territories are entered, creating research opportunities for completely new scientific experiments,” said Beatrix Vierkorn-Rudolph, representing the German Ministry for Education and Research. “These opportunities enable also new possibilities for cooperation with industry.”

FLASH delivers extremely short and intense X-rays flashes, which can be used to observe the ultra-fast processes taking place in the world of molecules and atoms. The facility is used by some 200 scientists from all over the world annually, but this is only a small fraction of the research proposals submitted. In the past three years, DESY has extended the facility for a cost of 33 million euros, adding a second laser line and a second experimental hall. In doing this, however, DESY is not just increasing the number of experimental stations available; the quality of the radiation has also been improved thanks to new technological developments, and the facility is more flexible too. In contrast to the original laser line, the wavelength of the radiation on the new laser line can be altered during operation.

“There is a special relationship between Albert Einstein, Kai Siegbahn and the research carried out at FLASH,” said Dosch. “Einstein’s explanation of the photoelectric effect using the idea that light behaves like particles is what enables us to take a sort of chemical fingerprint of our samples.” 50 years later, the Swedish physicist Kai Siegbahn came up with photoelectron spectroscopy, a method that allows the chemical composition of samples to be unravelled. “This method has become an indispensible tool for material scientists, and is actually being developed further at FLASH as a way of studying ultra-fast processes,” said Dosch. “The choice of names emphasises the close and fruitful German-Swedish collaboration in research, which has been taken to a new level with the Röntgen Ångström Cluster.”

Background.

The Free-Electron Laser in Hamburg (FLASH) uses a particle accelerator to produce ultrashort pulses of narrowly collimated X-ray beams. An accelerator boosts the speed of freely moving electrons until they are travelling at close to the speed of light. These high-speed elementary particles then enter a magnetic slalom course, known as an undulator. Every time the electrons are forced to change their direction, they emit high-energy flashes of X-rays. These flashes are superimposed on each other and add up to form a laser-like pulse in an energy range known as soft X-rays, just beyond the ultraviolet range.

FLASH has pioneered this field: In 2005, it became the world’s first free-electron laser in the X-ray range. Since then, other machines of this type are under construction or already in operation around the world. One of them is the European X-ray Free-Electron Laser, European XFEL, which uses the technology developed at FLASH and is currently being built underground from DESY’s Hamburg site to the neighbouring district of Schenefeld in Schleswig-Holstein. It will go into operation in 2017. The FLASH extension that has now been launched breaks new ground too: it is the first free-electron laser in the world to work with two laser beams.

Apart from FLASH, DESY also operates the x-ray source PETRA III, which is driven by a storage ring. PETRA III is the most brilliant X-ray source of its kind in the world.

 

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View of the FLASH experimental hall Albert Einstein. Credit: Heiner Müller-Elsner/DESY
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The FLASH facility with the two experimental halls in the foreground. Credit: DESY
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A view of the FLASH accelerator tunnel. Credit: Heiner Müller-Elsner/DESY
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DESY's tandem X-ray laser FLASH is powered by a superconducting linear accelerator (yellow, background). Bunches of fast electrons generate bright X-ray flashes in the two undulator tunnels. The X-ray light is being delivered to the different experimental stations in the two FLASH halls in the foreground. Illustration: DESY