Dr. Matthias Schnuerer
+49 30 6392 1315
B3: Laser Development
Haus B, 3.8
- Department Head B3 (acting) "Laser Development"
- Project Coordinator 4.2 "Application Laboratories and Technology Transfer"
During the last 15 years my research was concentrated on high field physics and laser driven matter acceleration. Focus was put on laser driven ion beam generation, source characterization, energy transformation processes in context with acceleration mechanisms. As a specific method proton imaging was developed further to study relativistic plasma dynamics. Furthermore project work was realized in laser driven electron acceleration, in operation and parameter improvement of high intensity laser systems.
In my physics diploma and PhD-work I studied deep temperature effects of electronic carrier mobility in metal oxide-oxide semiconductor structures. I got the chance to change to laser-plasma physics and started with ns-laser driven plasmas and its dynamics. These research activities comprised especially incoherent soft X-ray emission characteristics, related plasma diagnostic and colliding plasma interaction. With the advent of chirped-pulse amplification lasers my activities moved to interaction experiments with ps-, fs- and few cycle laser pulses. Special attention was paid to incoherent hard X-ray emission from laser plasmas in connection with energy transport, coherent XUV-emission from high density (X-ray laser) and gaseous density (high harmonic emission) plasmas, as well as to incoherent EUV-emission in connection with the dynamics of fs- laser exploded clusters and fusion neutron diagnostics in spray and spherical micro-droplet experiments. During the last years effects of collective electron dynamics in relativistic laser fields allowed to study several new findings in ion, electron and high harmonic emission.
In the face of completing relativistic plasma and ultra-high intensity laser physics projects at MBI I am looking forward to new tasks.
since 2007: Department head (acting), MBI, Berlin
2001: Habilitation, Technical University (TU) Wien
since 2000: Scientific researcher, MBI, Berlin
1997-2000: Scientific employee associate at the Photonics Institute, TU Wien
1991-1997: Scientific employee associate, Max-Born-Institute (MBI), Berlin
1984-1991:} Scientific employee associate,Central Institute of Optics and Spectroscopy (ZOS), Berlin
1984: PhD in Physics, HU Berlin
1982: Diploma in Physics, Humboldt-University (HU) Berlin
- Ultrafast element- and depth-resolved magnetization dynamics probed by transverse magneto-optical Kerr effect spectroscopy in the soft x-ray range Physical Review Research 4 (2022) L022062/1-7
- Ultrafast NEXAFS spectroscopy in the lab using laser-based sources and advanced X-ray optics SPIE Proceedings Series 11886 (2021) 11886 12/1-9
- High average power OPCPA MIR-systems for coherent soft x-ray generation accessing inner-shell absorption edges of metals SPIE Proceedings Series 11777 (2021) online
- 27 W 2.1 µm OPCPA system for coherent soft X-ray generation operating at 10 kHz Optics Express 28 (2020) 8724/1-10
- Controlling energy distribution of fast ions and X-ray emission via target reliefs in ultrafast and relativistic laser plasma interaction Physics of Plasmas 26 (2019) 113110/1-13
- Monitoring of evolving laser induced periodic surface structures Applied Sciences 9 (2019) 3636/1-12
- Parametric study of cycle modulation in laser driven ion beams and acceleration field retrieval at femtosecond time scale Physical Review Special Topics - Accelerators and Beams 22 (2019) 014201/1-9
- Soft X-ray nanoscale imaging using a superresolution CCD camera Review of Scientific Instruments 90 (2019) 043111/1-9
- A transportable Paul-trap for levitation and accurate positioning of micron-scale particles in vacuum for laser-plasma experiments Review of Scientific Instruments 89 (2018) 013302/1-11
- Charge-transfer processes in warm dense matter: selective spectral filtering for laser-accelerated ion beams Physical Review Letters 120 (2018) 184801/1-6