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Direct Observation of Giant Molecules

Physicists at the Max Planck Institute for Quantum Optics (MPQ) achieved to form giant diatomic molecules and optically detect them afterwards by using a high-resolution objective.

Quantum advantage with shallow circuits

In a paper published in Science [1], MQC member Robert König and collaborators from IBM and the University of Waterloo present the first unconditional separation between analogously defined classical and quantum complexity...

MCQST starting in January 2019

The "Munich Center for Quantum Science and Technology" is approved by the DFG as a Cluster of Excellence.

"Synopsis: ARPES with Cold Atoms"

"A numerical study outlines how to perform measurements on cold atoms that mimic angle-resolved photoemission spectroscopy studies of solids."

A quadrillionth of a second in slow motion

Observing and controlling ultrafast processes with attosecond resolution

Size-driven quantum phase transitions

A physical consequence of the undecidability of the spectral gap

Light controls two-atom quantum computation

MPQ scientists realize mathematical operations with a quantum gate between two trapped atoms that is mediated by photons.

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