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Two or one splashing? Its different!15.01.2015 - (idw) Rheinische Friedrich-Wilhelms-Universität Bonn
If two children splash in the sea high water waves will emerge due to constructive superposition. Different observations are made for the microscopic world in an experiment at the University of Bonn, where physicists used a laser beam to generate light waves from two cesium atoms. The light waves were reflected back from two parallel mirrors. It turned out that this experimental arrangement suppressed the emergence of high light waves. With their results, which are published now in the Physical Review Letters, the scientists observed the most fundamental scenario of light-matter interaction with two atoms.
The physicists at the University of Bonn confined two levitating cesium atoms in a light cage for photons. A laser beam continuously irradiated the two atoms, which scattered the laser light similar to levitating dust in a sunbeam. The scattered light waves superimpose and were reflected back onto the atoms by two parallel mirrors.
We expected that two atoms in such a cage would behave differently from a single atom says first author Dr. René Reimann, colleague of Prof. Dr. Dieter Meschede at the Institut für Angewandte Physik, University of Bonn. This matches with our everyday experience: Two splashing children in the sea produce different water waves than a single child. However, for the light cage with the light waves emitted from the two atoms the analogy to the splashing children in the sea does not fully hold. Here no high light waves are observed.
Backaction suppresses high light waves
The surprising situation of the two atoms inside the light cage can be illustrated with two children in a swimming pool instead of the sea. Here the children create water waves that are partially reflected from the pool edge. Now the reflected waves and the forward running waves cancel each other. Due to this feedback two children can in the best case generate barely higher waves than a single child. Albeit by changing the distance between them, the kids in the pool can change the height of the water waves.
Keeping this in mind one can understand the situation of the two cesium atoms in the experiment: Even in the best case when the light waves of the two atoms constructively interfere barely more photons could be counted compared to the one atom case. It became clear that the mirrors introduce a strong backaction that hinders the emergence of high light waves, describes Dieter Meschede.
New insights in light-matter interaction
Nevertheless minimal position changes of the levitating cesium atoms in the light cage can be detected through distinct changes in the height of the superimposed light waves. Up to now this was not possible. Now, this opens up new insights and experimental possibilities for the light-atom interaction of two-atom systems, says René Reimann. These new possibilities could support forward-looking technologies like quantum memories and quantum networks for telecommunication and computation.
So far, international teams of scientists observed the interaction of a single or many atoms with photons in a light cage. For his fundamental contributions to this research, Serge Haroche was awarded the Nobel Prize in physics in 2012. Now, the physicists from Bonn achieved to observe the interaction of exactly two atoms in a light cage. With this experiment the most fundamental case of collective light-matter interaction has been realized, says Dieter Meschede.
The research group Quantum Technologies at the University of Bonn experimentally investigates the controlled interaction between atoms and light. The group is focusing on the generation of particular quantum mechanical states.
Publication: R. Reimann, W. Alt, T. Kampschulte, T. Macha, L. Ratschbacher, N. Thau, S. Yoon, D. Meschede, Cavity-Modified Collective Rayleigh Scattering of Two Atoms, Physical Review Letters, DOI: 10.1103/PhysRevLett.114.023601
Contact information for media:
Dr. René Reimann
Institut für Angewandte Physik
Prof. Dr. Dieter Meschede
Institut für Angewandte Physik
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