Using ultrafast THz nanoscopy, we resolved the interplay between surface morphology, crystallographic phase, and vertical carrier dynamics in metal halide perovskites. Fantastic collaboration with Michael Johnston's group @UniofOxford. @NaturePhotonics .

RT @NaturePhotonics: New article online: In situ nanoscopy of single-grain nanomorphology and ultrafast carrier dynamics in metal halide pe….

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RT @tomsiday: A paper on metal halide perovskites from time in @Huber_Group and in Oxford, just published in Nature Photonics. We use ultra….

RT @idw_online_de: Kleine Schritte für Elektronen – große Schritte für die Solarzellen der Zukunft?.Physikerinnen und Physiker an der Unive….

RT @Svenja_Nerreter: Great news! Our latest results have been published in @NaturePhotonics. We developed an approach based on ultrafast ne….

RT @MZizlsperger: Happy to announce our latest work has been published in @NaturePhotonics. We have developed a method based on ultrafast n….

RT @JosefFreud: Do you want to fight climate change? Then you should build better solar cells!.For this, perovskites are setting new record….

RT @simonanglhuber: My dear colleagues from @Huber_Group at @uni_regensburg have recently explored diffusion in metal halide perovskites! T….

Publicly available read-only version of the paper:

RT @NanoLetters: 🔓 #OpenAccess + Most Read in the past 30 days: "Ultrafast Exciton Dynamics in the Atomically Thin van der Waals Magnet CrS….

RT @wilhelm_cpm: Ever imagined capturing chemical reactions with atomic resolution on video?🧬⌬🎥 We take a step closer to this vision with n….

RT @Nature: Nature research paper: All-optical subcycle microscopy on atomic length scales

RT @NaturePhotonics: New #openaccess article online: Ultrafast atomic-scale scanning tunnelling spectroscopy of a single vacancy in a monol….

RT @Johannes_Hayes: It is here! The result of years of hard work together with a great team.🥳🥳. Check out how we were able to bring optical….

RT @tomsiday: Some work from my time in Regensburg, in the @Huber_Group. We worked out how to measure the coherent emission from tunnellin….

We have discovered a quantum-mechanical contrast mechanism that enables all-optical microscopy to achieve atomic resolution while retaining subcycle precision. This new concept allows us to trace electrons on their intrinsic length and time scales.

RT @DinaGrohmann: First day of the inaugural symposium at the #RUN (Regensburg Center of Ultrafast Nanoscopy) opened by the hero of the RUN….

RT @NanoLetters: 🔓 #OpenAccess: "Ultrafast Exciton Dynamics in the Atomically Thin van der Waals Magnet CrSBr" by Meineke, Schlosser, Zizls….

We develop ultrafast lightwave-driven scanning tunnelling spectroscopy to investigate how the spin-orbit-split energy levels of an isolated Se vacancy within a WSe2 monolayer shift under phonon displacement. Read the full story in @NaturePhotonics.

Quantum dance to the beat of a drum: physicists at the University of Regensburg choreograph the shift of a quantized electronic energy level with atomic oscillations faster than a trillionth of a second. Read the full story in @NaturePhotonics.