Research Using Synchrotron Light
Tiny Magnets as a Model System
Scientists use nano-rods to investigate how matter assemblesTo make the magnetic interactions between the atoms visible, scientists at the Paul Scherrer Institute PSI have developed a special model system. It is so big that it can be easily observed under an X-ray microscope, and mimics the tiniest movements in Nature. The model: rings made from six nanoscale magnetic rods, whose north and south poles attract each other. At room temperature, the magnetisation direction of each of these tiny rods varies spontaneously. Scientists were able to observe the magnetic interactions between these active rods in real time. These research results were published on May 5 in the journal Nature Physics.
From methane to methanol - or how to extinguish the torches of waste
In nighttime photographs taken from space, the large cities of the world can easily be recognised by the flood of their public lighting. However, probably only the trained eye is able to see, as well as New York or Tokyo, the locations of many oil-producing wells . The light in these cases originates mainly from the combustion of methane. This huge waste of an energy-rich gas has devastating economic and ecological consequences. Reasearchers at the Paul Scherrer Institute PSI are looking for a solution: the conversion of methane into the liquid energy carrier methanol
Superconductors surprise with intriguing properties
Scientists at the Paul Scherrer Institute, together with Chinese and German collaborators, have obtained new insights into a class of high-temperature superconductors. The experimental results of this fundamental research study indicate that magnetic interactions are of central importance in the phenomenon of high-temperature superconductivity. This knowledge could help to develop superconductors with enhanced technical properties in the future.
Imaging fluctuations with X-ray microscopy
X-rays are used to investigate nanoscale structures of objects as varied as single cells or magnetic storage media. Yet, high-resolution images impose extreme constraints on both the X ray microscope and the samples under investigation. Researchers at the Technische Universität München the PSI now showed how to relax these conditions without loss of image quality. They further showed how to image objects featuring fast fluctuations, such as the rapid switching events that determine the life time of data storage in magnetic materials.
Magnetic nano-chessboard puts itself together
Researchers from the Paul Scherrer Institute and the Indian Institute of Science Education and Research have been able to intentionally switch off’ the magnetization of every second molecule in an array of magnetized molecules and thereby create a magnetic nano-chessboard’. To achieve this, they manipulated the quantum state of a part of the molecules in a specific way.
Excitement that rivals a moon landing
Interview with Thomas HuthwelkerThe Paul Scherrer Institut makes its research facilities available to scientists from all over the world. To ensure these scientists are exposed to optimal conditions when they arrive is the hard work of many PSI staff. An interview with one of these scientists provides a glimpse behind the scenes. This interview is taken from the latest issue of the PSI Magazine Fenster zur Forschung
How stabilised cell fibres prevent cancer cell division
Anti-cancer drugs are used under the heading of Chemotherapeutics to prevent cells from dividing. Because the cells in a growing tumour divide more frequently than others, tumour cells are damaged more severely. Scientists at the Paul Scherrer Institute and the ETH Zurich have now clarified the exact mechanism of action of one class of these drugs. The data acquired is so accurate, that targeted drugs could now be developed that are even better suited to fulfil their task.
The evolutionary origins of our pretty smile
Until recently, it was not obvious whether the earliest vertebrates (animals with a backbone) which had jawbones already possessed teeth or not. Now, an international research team has shown that the jaws of the prehistoric fish Compagopiscis already had teeth. This means that teeth appeared at the same evolutionary time as jaws à or at least shortly afterwards. The leaders of this project were scientists from the University of Bristol, England, who carried out their decisive experiments at the SLS at PSI.
X-rays provide insights into volcanic processes
Experiments performed at the Paul Scherrer Institute (PSI) investigate processes inside volcanic materials that determine whether a volcano will erupt violently or mildly. In the experiments, scientists heated small pieces of volcanic material similarly to conditions present at the beginning of a volcanic eruption. They used X-rays from the SLS to observe, in real time, what happens to the rock as it goes from the solid to the molten state.
New Insights into Superconducting Materials
A new X-ray technique provides insights into the magnetic properties of atomically thin layers of a parent compound of a high-temperature superconductor. It turns out that the magnetic properties of material films which are only a few atoms thick differ by only a surprisingly small degree from those of macroscopically thick samples. In the future, this method can be used to study the processes occurring in very thin layers of superconductors and help us to understand this intriguing phenomenon.
Alzheimer plaques in 3D
Researchers have succeeded in generating detailed three-dimensional images of the spatial distribution of amyloid plaques in the brains of mice afflicted with Alzheimer’s disease. The new technique used in the investigations provides an extremely precise research tool for a better understanding of the disease. In the future, scientists hope that it will also provide the basis for a new and reliable diagnosis method. The results were achieved within a joint project of two research teams à one from the Paul Scherrer Institute (PSI) and ETH Zurich, the other from the École Polytechnique Fédérale de Lausanne (EPFL).
Physicists observe the splitting of an electron inside a solid
An electron has been observed to decay into two separate parts, each carrying a particular property of the electron: a spinon carrying its spin à the property making the electron behave as a tiny compass needle à and an orbiton carrying its orbital moment à which arises from the electron’s motion around the nucleus. These newly created particles, however, cannot leave the material in which they have been produced.
Creating magnetism takes much longer than destroying it
Researchers at the Paul Scherrer Institute are finding out how long it takes to establish magnetism and how this happens. Establishing a magnetically ordered phase in the metallic alloy iron-rhodium takes much longer than the reverse process of demagnetization. The result comes from basic research, but has relevance for the computer industry, as it shows which processes limit the speed of magnetic data storage and where improvements might be made.
How the body distinguishes between self and non-self – important structures explained
Like a shredder, the immunoproteasome cuts down proteins into peptides that are subsequently presented on the cellular surface. The immune system can distinguish between self and non-self peptides and selectively kills cells that present non-self peptides at their surface. In autoimmune diseases, this mechanism is deregulated. However, inhibition of the immunoproteasome may alleviate disease symptoms and progression. With the help of measurements taken at the Paul Scherer Institute, scientists have now succeeded in determining the first structure of an immunoproteasome.
Using heat for storing data
An international research team has demonstrated a new way to record information on a magnetic medium without the use of a magnetic field. Instead, they found that they could record information using only a heat pulse. This method of recording might allow one to record Terabytes (1000s of Gigabytes) of information per second being 100s of times faster than present hard drive technology, and consumes much less energy by using heat without the need for a magnetic field. Using modern lithographic methods and x-ray microscopy, researchers from the Paul Scherrer Institute contributed considerably to this work.
Fossile Vorläufer der ersten Tiere
Einzellige Organismen, die vor über einer halben Milliarde Jahre gelebt haben und deren Fossilien in China gefunden wurden, sind wohl die unmittelbaren Vorläufer der frühesten Tiere. Die amöbenartigen Einzeller haben sich in einer Weise in zwei, vier, acht usw. Zellen geteilt, wie es heute tierische (und menschliche) Embryonen tun. Die Forscher glauben, dass diese Organismen einem der ersten Schritte vom Einzeller zum Vielzeller in der Entwicklung richtiger Tiere entsprechen.This news release is only available in German.
Wenn die Datenleitung in die Zelle versagt
Lebende Zellen empfangen dauernd Informationen von aussen, die über Rezeptoren in das Zellinnere weitergeleitet werden. Genetisch bedingte Fehler in solchen Rezeptoren sind der Grund für zahlreiche Erbkrankheiten darunter verschiedene hormonelle Funktionsstörungen oder Nachtblindheit. Forschern des Paul Scherrer Instituts ist es nun erstmals gelungen, die exakte Struktur eines solchen fehlerhaften Rezeptors aufzuklären.This news release is only available in German.
Nanoforscher untersuchen Karies
Forscher der Universität Basel und des Paul Scherrer Instituts konnten im Nanomassstab zeigen, wie sich Karies auf die menschlichen Zähne auswirkt. Ihre Studie eröffnet neue Perspektiven für die Behandlung von Zahnschäden, bei denen heute nur der Griff zum Bohrer bleibt. Die Forschungsergebnisse wurden in der Fachzeitschrift «Nanomedicine» veröffentlicht.This news release is only available in German.
Zehn Jahre Forschung in der fliegenden Untertasse
Mit einem Festakt hat das Paul Scherrer Institut (PSI) in Villigen (AG) heute an das zehnjährige Bestehen ihrer bedeutendsten Grossforschungsanlage erinnert. Seit der Inbetriebnahme im Sommer 2001 haben Tausende von Forschern aus Hochschule und Industrie an der Synchroton Lichtquelle Schweiz (SLS) qualitativ hochwertige Experimente durchgeführt. Ihre Forschung mündete in über 2000 wissenschaftlichen Publikationen und brachte darüber hinaus einen Nobelpreis sowie eine Vielzahl industrieller Anwendungen hervor.This news release is only available in German.
Getting inside the mind (and up the nose) of our ancient ancestors
Reorganisation of the brain and sense organs could be the key to the evolutionary success of vertebrates, one of the great puzzles in evolutionary biology, according to a paper by an international team of researchers, published today in Nature. The study claims to have solved this scientific riddle by studying the brain of a 400 million year old fossilized jawless fish à an evolutionary intermediate between the living jawless and jawed vertebrates.