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T2: Electronic decoherences induced by nuclear motion
T2: Strong field processes in few-body systems
Over the past decades, femtosecond nonlinear spectroscopic techniques using optical and infrared laser pulses have established a new paradigm for…
T3: Strong field excitation and HHG in tailored fields
T3: Strong field excitation and HHG in tailored fields
Part of Project 2.2 is dedicated to advancing the generation of attosecond pulses with controlled polarization. We have carried out an…
T4: Ultrafast electron diffraction of chemical dynamics
T4: Ultrafast electron diffraction of chemical dynamics
We use ultrafast electron diffraction (UED) to resolve structural changes in gas-phase molecules following photoexcitation with femtosecond…
T3: Quantum XUV optics
T3: Quantum XUV optics
The main objective of the project is to develop the methodology to detect quantum states of XUV light generated by strong-field interaction of light with matter. To this end…
Project Goals
Project goal
Project 2.1 forms the foundation of MBI’s attosecond science program and is dedicated to the understanding of fundamental ultrafast quantum phenomena, including electronic coherences…
T2: All-attosecond pump-probe spectroscopy
T2: All-attosecond pump-probe spectroscopy
In recent years, MBI has played a pioneering role in developing all-attosecond pump-probe spectroscopy, which has been a central goal within the…
Project Overview
Project overview
Our research addresses experiments on dynamic processes on nanometer length scales and femtosecond timescales, governed by fundamental material properties. Access to these ultrafast…
Observing nanoscale dynamics with soft X-rays
Scientists at the Max Born Institute have developed a new soft-X-ray instrument that can reveal dynamics of magnetic domains on nanometer length and picosecond time scales. By bringing…
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…
T3: Theory of dynamics in quantum materials
T3: Theory of dynamics in quantum materials
Our aim is ab-initio description of materials in ground-state as well as excited state. We do parameter free calculations for extended systems-- no input…