The precise structure of atomic nuclei is an old problem that has not been fully solved yet, and it also constitutes a current research focus in the field of natural sciences. Together with colleagues from Bonn University, physicists at Ruhr-Universität Bochum have developed an approach to carry out precision calculations of the forces acting between the particles inside the nucleus. They published their results in the magazine Physical Review Letters .
Underlying theory known, but too complicated
Atomic nuclei are made up of protons and neutrons, which have, in turn, a complicated internal structure and consist of so-called quarks and gluons. Even though the theory of the strong interaction between quarks and gluons has been known for a long time, it is too complicated for describing the properties of nuclei. Still, atomic nuclei can be efficiently described as systems composed of protons and neutrons without being necessary to resolve the internal structure of those particles. A description like this requires, however, that the forces acting between protons and neutrons are well understood.
The two-particle system
The properties of a proton interacting with a neutron are very well known experimentally. The challenge was, therefore, to reproduce these precise experimental data with a high theoretical accuracy. Prof Dr Evgeny Epelbaum from the Institute of Theoretical Physics II at RUB explains the method that he and his colleagues had chosen to gain that understanding: "In the course of the study, we carried out precision calculations regarding the forces between protons and neutrons using a modern approach known as effective field theory. Combined with a new method for analysing the theoretical uncertainties, which we had developed in a previous study (see info box), we were able to describe the properties of the simplest nuclear system consisting of a proton interacting with a neutron."
In future larger atomic nuclei
In future, these studies are going to be extended to larger nuclei, in order to, for example, learn more about the forces acting between a proton and two neutrons. Such three-body forces are not yet well understood and are in the focus of current research in the field of theoretical nuclear physics.
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Funding
These studies were funded by the ERC Starting Grant NuclearEFT and the CRC 110 (Uni Bonn) at RUB
Further information
Prof Dr Evgeny Epelbaum, Institute of Theoretical Physics II, Faculty of Physics and Astronomy, Ruhr-Universität Bochum, 44780 Bochum, phone: (0234) 32-28707 evgeny.epelbaum@rub.de
Title catalogue
E. Epelbaum, H. Krebs, U.-G. Meißner, "Precision nucleon-nucleon potential at fifth order in the chiral expansion", Phys. Rev. Lett.
Info box
The first part of the study was published some time ago in Eur. Phys. J. A51 (2015) 5, 53 and was voted EPJ A Highlight by the editors. http://epjh.epj.org/epja-news/945-epja-highlight-a-new-generation-of-chiral-nuclear-forces
Moreover, the research project was voted Highlight in Europhysics News (Vol. 46 No. 4): http://www.europhysicsnews.org/component/content/article/190-highlights/vol-46-no-4-highlights/579-a-new-generation-of-chiral-nuclear-forces-vol-46-no-4
Physical Review Letters