We are fascinated by these research fields

  • Universal matter-wave interferometry:
    We are working on scalable concepts and universal beam splitters for quantum experiments with atoms, atomic and molecular clusters, tailored organic molecules, native biomolecules and nanoparticles.
  • Quantum physics at the interface to the classical world:
    We explore the mass and complexity limits of matter-wave interference, experimental quantum decoherence and interferometric tests of wave function collapse
  • Quantum physics at the  interface to chemistry:
    We use matter-wave interference fringes as quantum nanorulers to measure electric, magnetic, optical and structural and dynamic properties of delocalized molecules.
  • Quantum physics at the  interface to biology:
    We realize matter-wave experiments with vitamins, antibiotics and polypeptides. For that purpose, we develop new beam and detection techniques for biomolecules.
  • Quantum physics at the  interface to mass spectrometry technologies:
    We study superconducting nanowire detectors for biomolecular beams, ultra-fast optical methods to prepare mass and charge controlled biomolecular beams for advanced mass and optical spectroscopy as well as quantum experiments.
  • Quantum physics at the interface to optomechanics:
    We exploit optical forces to achieve optical cooling of dielectric nanospheres in high-finesse microcavities as well as rotational cooling of dielectric nanorods to enable high-mass quantum experiments.

 Latest News

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"Matter-wave interference of a native polypeptide"


3D Interactive Research Simulation of Molecule Interferometry now available in Portuguese.


... for the publication on "Coriolis compensation via gravity in a matter-wave interferometer"!


Our paper on "A fiber-based beam profiler for high-power laser beams in confined spaces and ultra-high vacuum" has been published in Optics Express!


"Coriolis compensation via gravity in a matter-wave interferometer" got published in New Journal of Physics!


The Austrian Science Funds has granted us a new project: Multiscale Cluster Interference (MUSCLE)


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