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Showing 1–6 of 6 results

Advanced filters: Author: Dieter Jaksch Clear advanced filters

A peek and a poke

An adapted scanning electron microscope allows the non-destructive measurement and manipulation of Bose–Einstein condensates. The single-atom sensitivity that this technique promises could soon become indispensable in the study of quantum degenerate atomic gases.

Dieter Jaksch
News & Views01 Dec 2008
Nature Physics

Volume: 4, P: 906-908
A quantum-inspired approach to exploit turbulence structures

Tensor networks exploit the structure of turbulence to offer a compressed description of flows, which leads to efficient fluid simulation algorithms that can be implemented on both classical and quantum computers.

Nikita Gourianov
Michael Lubasch
Dieter Jaksch
Research13 Jan 2022
Nature Computational Science

Volume: 2, P: 30-37
Non-stationary coherent quantum many-body dynamics through dissipation

Typically, a quantum system that dissipates into the environment relaxes to a stationary state. Here the authors identify conditions under which dissipation prevents quantum many-body systems from reaching a steady state and they instead exhibit coherent oscillations.

Berislav Buča
Joseph Tindall
Dieter Jaksch
ResearchOpen Access15 Apr 2019
Nature Communications

Volume: 10, P: 1-6
Quantum physics in connected worlds

Quantum simulators allow for experimental studies of many-body systems in complex geometries, which has rarely been addressed by theory. Here the authors study many-body Hamiltonians on generic random graphs and show that many-body effects emerge only in a small class of exceptional, highly structured graphs.

Joseph Tindall
Amy Searle
Dieter Jaksch
ResearchOpen Access02 Dec 2022
Nature Communications

Volume: 13, P: 1-9
Supersolid simulations

Supersolids — substances that are crystalline but also behave as free-flowing superfluids — can exist, according to quantum theory. Models now suggest a route to the clinching experimental evidence.

Dieter Jaksch
News & Views12 Jul 2006
Nature

Volume: 442, P: 147-149
Dissipation-induced non-equilibrium phases with temporal and spatial order

Achieving ordered quantum phases on demand is crucial for future quantum technologies. Here, the authors propose an experiment with a quantum gas in an optical cavity, demonstrating multiple phases with both spatial and temporal order, all tunable on demand.

Zhao Zhang
Davide Dreon
Tobias Donner
ResearchOpen Access22 May 2025
Communications Physics

Volume: 8, P: 1-8