We are fascinated by and working on ...

  • Universal matter-wave interferometry & the foundations of physics
    • Towards metal cluster interferometry:
      a new material class in quantum physics to probe the interface to the classical world.  
    • From Polypeptide towards Protein interferometry:
      a new material class to study complexity & dynamics of biomolecules in quantum physics.   
  • Cooling and quantum optomechanics 
    • Optical cooling of non-spherical nanoparticles to explore their rotational quantum states.
    • Trapping & cooling of nanobiological matter to harvest their internal complexity. 
  • Enabling technologies for quantum experiments
    • Sources of metal clusters, dielectric and biological nanomaterials: for matter-wave interferometry.
    • Single-photon charge control and coherent beam splitting of proteins & metal clusters. 
    • Interfeormeter concepts for complex nanomatter.
  • Quantum sensors
    • Matter-wave deflectometers with high better than yocto-Newton force sensitivity:
      ... to measure electro-magnetic, optical & dynamical properties of molecules of interst to biology and chemistry.
    • Trapped nanorotors: 
      ... to realize highly sensitive torque & rotations sensors on the micron scale.  
    • Superconducting nanowire detectors:
      ... for mass spectrometry and molecule analysis, harvesting the sensitivity of quantum phase transitions.

 Latest News

10.04.2024
 

A new project to explore novel cooling techniques for trapped nanoparticles.

08.03.2024
 

See the creativity and perspectives of our female researchers.

05.03.2024
 

We welcome Josef Reisinger as a new PhD student in our team!

04.03.2024
 

We welcome Linus Kulman as a new Master in our team!

29.02.2024
 

The geometry of neuronal population dynamics and scaling of its dimensionality using cellular resolution cortex-wide recording of neuroactivity

20.02.2024
 

Talk by Marcel Strauss: Highly sensitive single particle detection of neutral and charged macromolecular beams