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Project Goals  
Project Goals In this project we investigate ultrafast and nonlinear phenomena in solids and nanostructures. Both fundamental questions of basic research and current questions of applied research…  
Contact  
Address Postal and delivery address: Max-Born-Institut für Nichtlineare Optik und Kurzzeitspektroskopie im Forschungsverbund Berlin e.V.  Max-Born-Straße 2 A 12489…  
T6: High-Harmonic Spectroscopy of Solids, Nanostructures and Quantum Materials  
T6: High-Harmonic Spectroscopy of Solids, Nanostructures and Quantum Materials - Peter Jürgens We explore high-harmonic generation (HHG) in a broad class of solid materials ranging from wide-bandgap…  
T4: Ultrafast electron dynamics  
T4: Ultrafast electron dynamics - Bernd Schütte We investigate ultrafast electron and lattice dynamics in solids using a worldwide unique setup for all-attosecond transient absorption spectroscopy…  
Personal Homepage  
MBI Staff Member – Personal info  
T1: Magnetism and transient electronic structure  
T1: Magnetism and transient electronic structure - Clemens von Korff Schmising We aim to understand how fundamental interactions in magnetism like spin-orbit coupling, exchange interaction, and…  
T5: Joint HU-MBI Group on Theoretical Optics  
T5: Joint HU-MBI Group on Theoretical Optics - Kurt Busch Photonics is the science and technology of the harnessing of light. It lies at the confluence of various disciplines: optics, material…  
T3: Theory of dynamics in quantum materials  
T3: Theory of dynamics in quantum materials - Sangeeta Sharma Our aim is ab-initio description of materials in ground-state as well as excited state. We do parameter free calculations for extended…  
T2: Following complex spin structures in time & space  
T2: Following complex spin structures in time & space - Daniel Schick The junior research group was founded by the Leibniz Competition "Best Minds" and started in 2023. We are embedded in Division…  
T1: Magnetism and transient electronic structure  
T1: Magnetism and transient electronic structure Experimental Methods XUV beamlines We use intense and ultrashort laser pulses (λ = 800 nm, E = 4.5 mJ at 3 kHz, Δt < 25 fs) to generate high…