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A: Fachverband Atomphysik

A 25: Poster IV

A 25.15: Poster

Mittwoch, 13. März 2024, 17:00–19:00, Tent A

A Coincidence Unit for Ultracold Quantum Gases combining Electron Velocity-Map-Imaging and Ion-Microscopy — •Lasse Paulsen¹, Jette Heyer^1,2, Julian Fiedler^1,2, Mario Grossmann^1,2, Klaus Sengstock^1,2, Markus Drescher^1,2, Juliette Simonet^1,2, and Philipp Wessels-Staarmann^1,2 — ¹Center for Optical Quantum Technologies, University of Hamburg, Luruper Chaussee 149, 22761 Hamburg, Germany — ²The Hamburg Centre for Ultrafast Imaging, Hamburg, Germany

By combining femtosecond laser pulses with ultracold quantum gases, new states of matter ranging from atom-ion hybrid sytems over dense Rydberg gases to ultracold microplasma can be created using local strong-field excitation and ionization.

In order to access the dynamics of these complex systems, a high spatial, spectral and angular resolution of the generated electrons and ions is necessary. Therefore, a coincidence unit consisting of a velocity-map-imaging spectrometer for electrons and an ion microscope will be implemented in the experimental setup. This allows mapping the electron momenta with a simulated energy resolution of Δ E/E ≤ 10% over a range of 0.05 meV - 3.2 eV and imaging of the ions with a spatial resolution of 100 nm. Furthermore, coincidence detection is enabled via pulsed extraction allowing to study the dynamics and correlations in many-body-systems with long-range interaction.

Keywords: Ultracold atoms; Ultrafast laser pulses; Velocity-Map-imaging; Ion-Microscopy; atom-ion hybrid systems