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Max Planck Institute of
Quantum Optics

P.O.Box 13 27
D-85741 Garching, Germany

Hans-Kopfermann-Str. 1
D-85748 Garching, Germany

Phone: + 49 (89) 3 29 05 - 0
Fax:    + 49 (89) 3 29 05 - 200

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A simplified formulation of lattice gauge theories for applications in particle physics as well as quantum simulations

January 05, 2018
Theorists from the field of quantum optics and particle physics find a new and very general approach for the solution of lattice gauge theories. [more]

Leaving Flatland – Quantum Hall Physics in 4D

January 04, 2018
Researchers from LMU/MPQ implement a dynamical version of the 4D quantum Hall effect with ultracold atoms in an optical superlattice potential [more]

Long-lived storage of a photonic qubit for worldwide teleportation

December 12, 2017
MPQ scientists achieve long storage times for photonic quantum bits which break the lower bound for direct teleportation in a global quantum network. [more]

A space-time sensor for light-matter interactions

November 30, 2017
Physicists in the Laboratory for Attosecond Physics (run jointly by LMU Munich and the Max Planck Institute of Quantum Optics) have developed an attosecond electron microscope that allows them to visualize the dispersion of light in time and space, and observe the motions of electrons in atoms. [more]

An acoustic cage for electrons

November 14, 2017
International team of scientist develops new concept for trapping and manipulating electrons with sound waves [more]

A new concept for a unidirectional waveguide

November 07, 2017
A team of scientist at MPQ and Caltech proposes the realization of two-dimensional topological insulators by classical optical networks. [more]

Lightwave controlled nanoscale electron acceleration sets the pace

November 02, 2017
Extremely short electron bunches are key to many new applications including ultrafast electron microscopy and table-top free-electron lasers. [more]
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Cold molecules on collision course

October 13, 2017
Using a new cooling technique MPQ scientists succeed at observing collisions in a dense beam of cold and slow dipolar molecules. [more]
 
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