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Non-adiabatic QED


Driving electrons by atomically strong optical fields, non-perturbative dynamics such as the generation of high harmonic or high-order sideband radiation can arise, allowing for a detailed insight into the carrier dynamics, switching spins and building quasiparticle accelerators. In a complementary limit, electrons can be dressed solely by vacuum field fluctuations in microcavities, which results in the formation of new light-matter hybridized eigenstates – the foundation of cavity quantum electrodynamics.



In our group we push the limit of light-matter interaction to the ultrastrong and deepstrong coupling regime, where light and matter exchange energy faster than their fundamental oscillation period. Here anti-resonant interactions govern the dynamics, giving rise to a modified vacuum ground state and novel quantum effects. By reaching coupling strengths of unprecedented levels, we even get a nonzero population of vacuum photons in the ground state. In our group we have pioneered ultrafast control and custom-tailoring of this exciting regime, exploring nonlinear dynamics and more quantum phenomena of ultra- and deepstrong light-matter coupling.


Selection of breakthrough publications


For a complete list of our work, please consult our Publications page.


Highlights

June 2024
Coverstory in Nature Photon.

May 2024
Publication in Nature

July 2023
Launch of the ERC project Orbital Cinema