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News Release from: Paul Scherrer Institute | Subject: Swiss Light Source (SLS)
Edited by the Laboratorytalk Editorial
Team on 20 December 2006
World's most advanced synchrotron light
source
The Swiss Light Source (SLS) is the most advanced synchrotron light source in the world and continually draws scientists from all over the world whose experiments benefit from the high quality beam
The Swiss Light Source (SLS) is the most advanced synchrotron light source in the world and continually draws scientists from all over the world whose experiments benefit from the high quality beam The Swiss Light Source (SLS) started operating five years ago in Villigen, Switzerland
This article was originally published on Laboratorytalk on 22 Dec 2006 at 8.00am (UK)
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Since then, the facility at the Paul Scherrer Institute (PSI) has been available for use by researchers from universities and industry.
The SLS generates beams of light which are extremely fine and highly intensive.
The facility acts as both a gigantic microscope and a multi-coloured micro-spotlight.
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It enables researchers to penetrate hitherto unexplored microcosmic depths.
For example, it can help them decode the structure of proteins, or explore the characteristics of superconductors - and all at magnitudes of thousandths of a millimetre.
A successful tool for top research In 2005, 830 researchers undertook a total of 677 experiments.
These scientists mainly come to PSI from Switzerland, Germany, Italy and France; and they include biologists, chemists, physicists, environmental scientists and geologists.
And still they come.
Since the SLS went into operation with four beamlines, the rate of occupation has increased steadily.
There are now ten beamlines in operation and they are so popular that the demand for measuring time outstrips supply several times over.
By 2010, there should be 18 to 20 beamlines in operation.
The SLS is described as the most advanced synchrotron light source in the world.
The beam provided here is very brilliant and extremely stable, which gives better experimental results.
This premium quality is based on new technologies that were developed at PSI and have frequently been copied since then.
The construction of the SLS has already paid its way in the form of research published in scientific journals.
According to Timothy Richmond, winner of the 2006 Marcel Benoist Prize: "The SLS is one of the best facilities in the world, and has advanced my work".
Richmond is a professor at the ETH in Zurich, and was honoured with the 'Swiss Nobel Prize' for clarifying the structure of nucleosomes, the basic units of chromosomes.
The Paul Scherrer Institute (PSI) is a multi-disciplinary research centre for natural sciences and technology.
Research priorities lie in areas of basic and applied research, particularly in fields which are relevant for sustainable development, as well as of major importance for teaching and training, but which are beyond the capabilities of a single university department.
In national and international collaborations with universities, other research institutes and industry, PSI is active in solid state physics, materials sciences, elementary particle physics, life sciences, nuclear and general energy research, and energy-related ecology.
The institute is committed to future generations by paving the way for sustainable development of society and economy.
Through its research, PSI acquires new basic knowledge and actively pursues the application of this knowledge in industry.
With 1200 employees, it is the largest national research institute and is unique in Switzerland.
PSI develops and operates complex research installations which call for especially high standards of know-how, experience and professionalism, and is one of the world's leading user laboratories for the international scientific community.
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