About the group

Cavity-Optomechanics provides a unique approach to Stochastic and Quantum Thermodynamics at the single- and few particle level. The thermodynamic perspective on overdamped mechanical systems has been successfully and much more extensively studied than on well-isolated mechanics. We experimentally investigate such underdamped mechanical systems. Amongst others, this provides a natural first step towards the quantum regime. Our focus lies on the application of levitated optomechanics, where all-optical control of the potential landscape seen by a single or few nanoparticles and reservoir engineering of their optical environment are possible. This will provide a general testbed for proof-of-principle implementations to experimentally adress questions at the interface of thermodynamics, information theory and quantum physics.

The experimental group on Far-from-equilibrium Quantum Systems is led by Assist.-Prof. Dr. Nikolai Kiesel at the Faculty of Physics, University of Vienna. We currently focus on Stochastic and Quantum Thermodynamics with levitated nanospheres and dynamics in nonlinear potentials. We also acknowledge the close collaboration, support and exchange of know-how with the group of Prof. Aspelmeyer. The research is funded by the FWF START Programme, the Quant-ERA projects QuaSeRT and TheBlinQC, and the FET-Open project IQLev . 



Latest News


Fun physics for everyone: Making radiation pressure visible to the bare eye.


Tobias rejoins the team to complete his Master thesis.


Mario joins us from Rome as a PostDoc. He will start setting up the SLM-based tweezer experiments.


New publication on "Underdamped stochastic heat engine at maximum efficiency" appeared in EPL


Maxime starts as a PostDoc with an initial focus on the hollow-core fiber experiments.


Markus rejoins the team to complete his Master thesis...