M. Prüfer, P. Kunkel, H. Strobel, S. Lannig, D. Linnemann, C.M.
Quantum mechanically, this is the case if the dynamics of a many-particle system become universal. In the course of the dynamics we are able to measure precisely the universal observables, for example the state of the atoms, spatially resolved”, explains Prof. Dr Markus Oberthaler, founder of the Synthetic Quantum Systems research group at Heidelberg University’s Kirchhoff Institute for Physics.In their experiment, the Heidelberg researchers prepared about 70,000 ultracold Rubidium atoms. “The high degree of control over our system allows us to set up interesting initial conditions. You can help by adding to it. You can help by adding to it.
This suggests that we are on the track of a fundamental structure.” The work in Heidelberg and Vienna was conducted under the auspices of the “Isolated quantum systems and universality in extreme conditions” Collaborative Research Centre at Heidelberg University.Experimental setup at the Kirchhoff Institute for Physics at Heidelberg University. Here the universal dynamics of ultracold atoms was observed. They are also co-authors of the Heidelberg study under the direction of Prof. Oberthaler.The characterisation of quantum mechanical many-particle systems far from equilibrium is very important, for example, for understanding structure formation in nature. This is different for ultracold atomic gases. Kirchhoff Institute for Physics - Junior Professor Dr Fred Jendrzejewski Phone +49 6221 54-5182 fnj@kip.uni-heidelberg.de In two fundamentally different experiments, physicists from Heidelberg University and the TU Vienna (Austria) have now succeeded in verifying this universality in ultracold clouds of Rubidium atoms.
The scope of its research is broad. (June 2020)This section is empty. Different physical systems – isolated from the environment and far from equilibrium – can behave the same. Many projects exist, from Facilities include (apart from several laboratories) a The Institute of Environmental Physics was founded in 1975. Live webcam snapshots from Heidelberg, Germany. Changhyun Koo Research Associate at Kirchhoff Institute for Physics, Heidelberg University.
Schmied, J. Berges, T. Gasenzer, and M.K.
This is a feed from an Axis … (June 2020) Its current director is Prof. Dr. Norbert Frank.It is the most important international institution for astronomical data calculations. The research results were published in “Nature”.The expansion of the Universe directly after the Big Bang, the ramifications of a heavy-ion collision in the particle accelerator at CERN, or clouds of atoms at ultracold temperatures – many isolated physical systems are naturally out of equilibrium, yet the relevant quantities are often hard to measure. The Kirchhoff-Institut für Physik (Kirchhoff Institute of Physics), built in 2002, is a research institute located in Heidelberg, Germany.It shares faculty with the physics and astronomy departments at the University of Heidelberg.The institute is named after Gustav Kirchhoff, who collaborated in Heidelberg in 1854 with Robert Bunsen in spectroscopic work. The Kirchhoff-Institut für Physik (Kirchhoff Institute of Physics), built in 2002, is a research institute located in Heidelberg, Germany.It shares faculty with the physics and astronomy departments at the University of Heidelberg.The institute is named after Gustav Kirchhoff, who collaborated in Heidelberg in 1854 with Robert Bunsen in spectroscopic work. “This requires an extremely stable experimental setup, but it does allow us to investigate the dynamics very precisely”, says Maximilian Prüfer, the primary author of the study.The research group of Prof. Dr Jörg Schmiedmayer at the TU Vienna observed another type of universal dynamics.