Feb. 28, 2011

Wolf-Award for Breakthrough in Electron Microscopy: Maximilian Haider, Harald Rose, Knut Urban

  • Prof. Fr. Maximilian Haider (Photo: Karlsruhe Institute of Technology, Germany)Prof. Fr. Maximilian Haider (Photo: Karlsruhe Institute of Technology, Germany)
  • Prof. Fr. Maximilian Haider (Photo: Karlsruhe Institute of Technology, Germany)
  • Prof. Dr. Harald Rose (Photo: TU Darmstadt, Germany)
  • Prof. Dr. Knut Urban, (Photo: Research Center Jülich, Germany)

This year the prestigious Wolf-Award for Physics has been won by three top German Scientists, Maximilian Haider from the CEOS GmbH in Heidelberg, Harald Rose from the Technical University, Darmstadt and Knut Urban from the Research Center, Jülich. The award, valued at US-$ 100,000.- is in recognition of their work on the further development of electron microscopy. It will be presented to them on May 29th by the Israeli President, Shimon Peres and the Minister for Education Gideon Sa'ar, in a ceremony held before the Knesset, the Israeli Parliament, in Jerusalem.

The electron microscope is one of the most widely used research tools in modern science, playing a pivotal role in virtually all areas of natural sciences, as well as in a broad range of technologies, from basic research to vital industries.

Since its invention in 1931, the performance of electron microscopy has been limited by the effects of the aberrations of the electron lenses used, which kept its spatial resolving power at values far below the theoretical limit. Given its broad role in advancing modern science and technology, extraordinary efforts were made, worldwide, to overcome these limitations. But, for over half a century, these attempts failed.

Working together since 1990, the three Wolf Prize Laureates jointly succeeded in realizing aberration-corrected electron optics for the first time. As a result, they have advanced the resolution of transmission electron microscopy to atomic and sub-atomic dimensions. Their work was inspired by a novel optical concept for the correction of spherical aberration of the objective lens of an electron microscope, developed by Harald Rose (born 1935, Germny). Based on this corrector principle, Maximilian Haider (born 1950, Austria) constructed the first prototypical aberration-corrected transmission electron microscope. Knut Urban (born 1941,Germany) developed this prototype into a working platform for atomic-resolution electron microscopy.

He also developed the theoretical and methodological basis for extending and interpreting microscopy in sub-atomic dimensions.

For the first time, aberration-corrected transmission electron microscopy has permitted localization of atoms with an accuracy of a picometer, corresponding to one hundredth the size of a hydrogen atom. The ability to measure individual atomic positions with picometer precision and to correlate atomic-scale structure with macroscopic physical properties constitutes a major breakthrough in materials science, with implications for many other areas of science and technology. The breakthrough in exploring the microcosm comes at a time when developing nanotechnologies and getting them to work for a number of applications, calls for high-resolution, high-sensitivity instrumentation for research, synthesis and validation of novel techniques.

Within less than five years since the commercialization of aberration-corrected electron microscopy, more than 200 of these instruments have been ordered by university and industrial research laboratories all over the world, pointing to the central role that state-of-the-art electron microscopy plays in 21st century research and putting an end to decades of stagnation in this key area of scientific instrumentation and industrial technology.


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