Max-Born-Institut für Nichtlineare Optik und Kurzzeitspektroskopie im Forschungsverbund Berlin e.V. (MBI) - Firma in Berlin

Max-Born-Institut für Nichtlineare Optik und Kurzzeitspektroskopie im Forschungsverbund Berlin e.V. (MBI)

Max-Born-Straße 2a, 12489 Berlin

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+49 30 6392-1505 +49 30 6392-1519

Director

Direktoren: Prof. Dr. Stefan Eisebitt, Prof. Dr. Thomas Elsässer, Prof. Dr. Marc Vrakking

Contact

Dr. Alexander Grimm agrimm@mbi-berlin.de

Focus

According to its statute, the MBI conducts basic research in the field of nonlinear optics and ultrafast dynamics of the interaction of light with matter and pursues applications that emerge from this research. It develops and uses ultrafast and ultra-intense lasers and laser-driven short-pulse light sources in a broad spectral range in combination with methods of nonlinear spectroscopy.

With its research the MBI fullfills a nationwide mission and is an integral part of the international science community. The MBI is involved in a large number and variety of cooperative research projects with universities, other research institutions and industrial partners. In addition, it offers its facilities and its scientific know-how also to external researchers within the framework of an active guest programme.

Category

  • Research and De­vel­op­ment

News

Few-cycle pulses break the 300 W barrier
Few-cycle pulses break the 300 W barrier
Significant milestone in few-cycle laser technology paving the way towards industrial applications
The activist
The activist
Andrea Lübcke researches molecules and campaigns against climate change
Let there be… a new light
Let there be… a new light
Scientists from Max Born Institute, Israel Institute of Technology and TU Berlin synthesized light with new intrinsic chirality to tell mirror ...
Forward or backward? New pathways for protons in water or methanol
Forward or backward? New pathways for protons in water or methanol
Scientists at Max Born Institute Berlin and Martin Luther University Halle-Wittenberg publish new findings
Experimental physicists redefine ultrafast, coherent magnetism
Experimental physicists redefine ultrafast, coherent magnetism
For the first time ever, physicists have been able to change the magnetic moment of a material using a light wave within one femtosecond – the fastest ...
Accurate Probing of Magnetism with Light
Accurate Probing of Magnetism with Light
MBI scientists provide the groundwork to interpret spectroscopic signals in dynamic microscopic processes
Laser-driven spin dynamics in ferrimagnets: How does the angular momentum flow?
Laser-driven spin dynamics in ferrimagnets: How does the angular momentum flow?
With “x-ray vision”, MBI scientists observe demagnetization process in different materials