The seven-tonne, 4.5-metre tall Scanning Transmission Electron Holography Microscope (STEHM), the first such microscope of its type in the world, came to the university in parts last year,. A team from Hitachi, which constructed the ultra high-resolution, ultra-stable instrument, spent one year painstakingly assembling the STEHM in a carefully controlled lab in the basement of the Bob Wright Centre.
Herring viewed gold atoms through the microscope at a resolution of 35 picometres. One picometre is a trillionth of a metre. This resolution is much better than the previous best image with 49-picometre resolution taken at the Lawrence Berkley National Laboratory in California, and is about 20 million times human sight.
The STEHM allows researchers to see the atoms in a manner never before possible. It has full analytical capabilities that can determine the types and number or elements present, and high-resolution cameras for collecting data.
If I were to use that microscope I still wouldn't be able to find why this is a good idea.