15 September 2009 www.fwf.ac.at
Under Observation - Restless Atoms Cause Materials to Age
Atoms have the habit of jumping through solids - a practice that physicists have recently been able to follow for the first time using a brand new method. This scientific advance was made possible thanks to the utilisation of cutting-edge X-ray sources, known as electron synchrotrons. The detailed findings of the project, backed by the Austrian Science Fund FWF, were recently published in the prestigious journal Nature Materials. The work unlocks new potential for the study of material ageing processes at the atomic level.
To the naked eye, a wedding ring shows no traces of its "internal unrest". At the atomic level, however, it's a stormy affair, with billions of atoms changing position every second. Image credit: Michael Leitner
Now and then, things can get pretty "wild" in solids. For example, billions of atoms in a gold ring can shift position every second. However, it is not just ordinary people who cannot see the atoms jumping around - physicists too have long been unable to witness this process for themselves. However, there is one very good reason in particular why scientists should want to change all that. The restlessness of atoms is responsible for ageing, and therefore the loss of specific material properties.
Scientific understanding of atomic movement has now been significantly enhanced. A team of researchers from the Faculty of Physics at the University of Vienna have pioneered a method to directly track atoms as they jump through solids. To achieve this breakthrough, the team applied state-of-the-art technology in the form of the European Synchrotron Radiation Facility in Grenoble, France, which creates special X-rays of exceptional intensity and quality. These X-rays - which can at present only be generated at three research facilities worldwide - allowed the researchers to observe the movement of atoms in a copper/gold alloy.
Twice the Jump Rate
In the future, the recently accomplished experiment will serve as a basis for the measurement of atomic movement in numerous, technically important metallic systems. This is an important first step in understanding the ageing processes of materials, which is due to the internal unrest of atoms. For example, to ensure that a car engine does not wear and that a computer can function properly, foreign atoms need to be allocated to specific positions under controlled production conditions, usually at high temperatures. Unfortunately, these atoms also tend to leave their "allocated" positions quickly when exposed to high temperatures and, as a result, the materials lose their desired properties.
The Means are the End
The European X-ray Laser is to be used for applications well beyond the investigation of materials. It will also be a unique tool in the study of structures in vital substances such as proteins. Although the use of "coherent" X-rays is still in its infancy, the FWF-supported project has already taken an important step towards their universal application - placing Austrian scientists at the forefront of scientific progress.
Original publication: "Atomic diffusion studied with coherent X-rays" M. Leitner, B. Sepiol, L. Stadler, B. Pfau & G. Vogl. Nature Materials 8, 717 - 720 (2009), DOI: 10.1038/nmat2506
Source: www.fwf.ac.at /...
Subscribe to the IoN newsletter.
|If you have a press release or a nanotechnology news story, then please contact us.|