Unlocking the secrets of gold. Credit: Massey University
Gold is prized for its preciousness and as a conductor in electronics, but it is also important in scientific experimentation. Ernest Rutherford utilised it when mapping the atom, in an experiment, which needed a thin metal foil made of gold. However, despite its usefulness in experimentation, scientists found gold would not always perform how they theorised it would at the atomic level. Scientists do not like what they cannot explain, so debate grew amongst the communities best minds to explain this why gold is special, which until now remained unsolved even for the most basic atomic properties.
Acting Head of Institute of the New Zealand Institute for Advanced Study, Distinguished Professor Peter Schwerdtfeger, alongside international colleagues, solved the problem and uncovered more precise calculations for gold that will help scientists bridge the gap between theory and experiment. “Gold is a little more mysterious and complex to measure because of its quantum nature, but even in basic experiments, such as removing and adding electrons, it remained inconsistent. Our calculations are important because more precise calculations are able to produce more reliable results,” Professor Schwerdtfeger says.
The team was able to reduce the discrepancy between theory and experiment to just a few milli-electron-volts, which is a giant improvement over past results. They achieved this by using an approach, which other scientists have neglected, called Feynman’s approach, which looks at the quantisation of the electromagnetic field – essentially looking at how light and matter interact. This knowledge can be applied to further improve predictions in the research of not just gold, but other heavy elements, Professor Schwerdtfeger says.
This was a major effort over 10 years between 3 different groups of researchers: Dr Anastasia Borschevsky from the Van Swinderen Institute for Particle Physics and Gravity, Dr Epharim Eliav and Dr Uzi Kaldor of Tel Aviv University, and Dr Lukas Pasteka of Massey University.
http://www.massey.ac.nz/massey/about-massey/news/article.cfm?mnarticle_uuid=D81169A1-F8BB-6DF2-3665-657A4EB22D39
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