Complex Dynamics in Cold Gases
When atoms are cooled down to temperatures of a few mK and, at the same time, are excited to high-lying internal states the typical order of time and energy scales is turned upside down. Random, thermal motion is overruled by the collective dance of (quasi)particles, governed by their strong interactions and correlations.
Such exotic types of matter are produced in several laboratories and often appear in very different states, ranging from fully-ionized ultracold plasmas to so-called frozen Rydberg gases.
We aim at gaining theoretical insights into the often complex dynamics of such gases. One of our objectives is to exploit this understanding for a selective manipulation and control of the system dynamics.
Our research is driven by computational as well as theoretical approaches and also benefits greatly from close collaborations with leading experimental groups in the field.
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Latest QIPC News
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2017-11-30
Wiley-VCH is currently preparing the launch of a new journal, Advanced Quantum Technologies (www.advquantumtech.com). The journal is now open for submission
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2017-11-03
EC vice-president and Commissioner for the Digital Single Market, Andrus Ansip, makes positive remarks about Quantum Technologies and talk about what will be the next steps in Europe for the QT.
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2017-09-27
The final report of the High Level Steering Committee for Quantum Technologies has been published.
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