Max Born Institute for Nonlinear Optics and Short Pulse Spectroscopy
 
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Observing laser induced shape changes of C60 by time resolved X-ray imaging  
Sketch of the experimental scheme. A prototype molecule, the famous football-shaped “Buckminsterfullerene” C60 was studied both experimentally and theoretically by groups from the Max Born Institute (MBI) in Berlin, in the framework…  
Publications  
Patents I. Will, J. Tümmler, T. Nubbemeyer, R. Jung, W. Sandner, "Vorrichtung zur Verstärkung von gepulster Laserstrahlung mit hoher Energie der Laserpulse und hoher mittlerer…  
Project Goals  
Project Goals We investigate strong field induced dynamics in a variety of systems, including atoms, molecules, clusters, and solids, and aim at resolving the underlying mechanisms on their natural…  
Topic 2: Functional magnetic layer systems  
Topic 2: Functional magnetic layer systems Another central topic area is the investigation of ultrafast magnetization dynamics, in particular laser-driven spin and electron transport. Here,…  
Topic 1: Optical elements for XUV and soft x-rays  
TOPIC 1: Optical elements for XUV and soft x-rays We develop and produce nano- and microscale optical elements and substrates for single- and multiple-shot experiments that are optimized for FEL and…  
Topic 5: Magnetron sputtering source development  
Topic 5: Magnetron Sputtering source development In Germany, there are currently only a few manufacturers of magnetron sputter sources that can use a target size of 1” or 2”. Sharp rises in raw…  
Topic 4: Filter production  
TOPIC 4: Filter production Within the ERDF project Spez-FX we establish and optimize production and transfer-to-holder processes for special transmission filters, both free-standing and supported,…  
T1: Attosecond electron dynamics in strongly driven systems  
Topic 1: Attosecond electronic dynamics in strongly driven systems We combine XUV pulses as short as 100 attoseconds (1/10-th of a millionth of a billionth of a second!) with few-cycle visible or…  
Project Goals  
Project Goals Non-adiabatic coupling between electronic and nuclear degrees of freedom plays a central role in many essential chemical and biological processes, including ultrafast…  
T1: Non-adiabatic excited-state molecular dynamics  
T1: Non-adiabatic excited-state molecular dynamics We are developing time-resolved soft x-ray absorption spectroscopy as a tool to investigate non-adiabatic processes in isolated few-body systems…