Our mission is ...

  • Universal matter-wave interferometry & the foundations of physics
    • Demonstrated quantum interference of atoms & molecules:
      Fullerenesvitamins,  macromolecules, molecular clusters, antibiotic polypeptides, and massive metal clusters. already exceeding 170'000 atomic mass units. 
    • Exploring new materials, complexity classes & internal dynamics in quantum interferometry:  
      proteins, metal clusters, dielectric nanoparticles.
    • Quantitative experiments on dephasing and decoherence.
  • Cooling and quantum optomechanics 
    • Optical cooling to trapped rotational quantum ground states.
    • Trapping & cooling of nanobiological matter
  • Enabling technologies for quantum experiments
    • Molecular beam sources for cold metallic, dielectric and biological nanomaterials.
    • Universal coherent beam splitter technologies
  • Quantum sensing
    • Matter-wave assisted force measurements with < 10-26 N sensitivity.
    • Trapped nanorotors for torque & rotation sensing on the micron scale.  
    • Superconducting quantum detectors for mass spectrometry & molecule analysis.

 Latest News

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05.05.2026
 

Reflections on future problems in cluster science
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26.04.2026
 

Congratulations to Sebastian on completing his PhD with distinction.
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06.04.2026
 

Cooling to the 2D Librational Quantum Ground State of a Trapped Nanorotor
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04.02.2026
 

De Broglie and moiré metrology: From atoms to massive metal clusters
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22.01.2026
 

The biggest ‘Schrödinger’s cat’ yet — 7,000 atoms in superposition
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22.01.2026
 

Probing quantum mechanics with nanoparticle matter-wave interferometry
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