Ultrafast Laser Technologies - Fachbereich Physikingenieurwesen

Laser Radiation Sources
General Pulse Shaping
Coherent Control
Materials Processing
X-ray Generation
Analytics

Laser Radiation Sources

**The extraction and phase coherent amplification of short pulses from a mode-locked pulse train by summing pulses in a resonant build-up cavity**
Prof. Dr. T. W. Hänsch Max Planck Institut für Quantenoptik 85748 Garching	Dr. Michael Rosenbluh Bar-Ilan University Department of Physics and Resnick Institute for Advanced Technology Ramat-Gan 52900

**Ultrashort-pulse lasers and amplifiers based on diode pumped fiber laser crystals**
Prof. Dr. Andreas Tünnermann Friedrich Schiller Universität Jena Institut für Angewandte Physik D-07743 Jena	Dr. Alexander Cohen Ben Gurion University Inst. for Appl. Research P.O. Box 653 Beer Sheva 84105

Seitenanfang

General Pulse Shaping

**Spatial and temporal control of femtosecond laser pulses with adaptive mirrors**
Prof. Dr. Ulrich Wittrock Fachhochschule Münster Fachbereich Physikalische Technik Labor für Photonik 48565 Steinfurt	Prof. Dr. Yaron Silberberg Weizmann Institute of Science Dept. of Physics of Complex Systems Rehovot 76100

Seitenanfang

Coherent Control

**Femtosecond coherent control for nonlinear spectroscopy**
Dr. Georg Korn Max-Born-Institut D-12489 Berlin	Prof. Dr. Yaron Silberberg Weizmann Institute of Science Dept. of Physics of Complex Systems Rehovot 76100

**Coherently controlled asymmetric synthesis by 'laser destillation' with femtosecond laser pulses**
Prof. Dr. G. Gerber Physikalisches Institut Experimentelle Physik ID-97074 Würzburg	Prof. Dr. Moshe Shapiro Weizmann Institute of Science Dept. of Chemical Physics Rehovot 76100

**Rapid update pulse shaping apparatus for coherent control and dynamics of condensed phase chemical reactions**
Prof. Dr. Nikolaus Ernsting Institut für Chemie der Humboldt Universität Berlin 10117 Berlin	Prof. Dr. Sanford Ruhmann Hebrew University Dept. of Physical Chemistry Jerusalem 91904

**Laser cooling of diatomic molecules: an optimal control approach**
Dr. Regina de Vivie-Riedle Max Planck Institut für Quantenoptik 85748 Garching	Prof. Dr. David. J. Tannor Weizmann Institute of Science Rehovot 76100

Seitenanfang

Materials Processing

**Fabrication of two- and three-dimensional photonic crystals by femtosecond laser pulses**
Dr. Jürgen Ihlemann Laser Laboratorium Göttingen 37077 Göttingen	Dr. Michael Rosenbluh Bar-Ilan University Department of Physics and Resnick Institute for Advanced Technology Ramat-Gan 52900

**Metal, semiconductor and soft matter processing by femtosecond shaped pulses – theoretical and numerical modelling**
Dr. Carsten Fallnich Laserzentrum Hannover (LZH) 30419 Hannover	Dr. Yehiam Prior Weizmann Institute of Science Dept. of Chemical Physics Rehovot 76100

**Metal and semiconductor processing by femtosecond shaped pulses – experimental characterization and optimization**
Dr. Peter Simon Laser Laboratorium Göttingen 37077 Göttingen	Dr. Yehiam Prior Weizmann Institute of Science Dept. of Chemical Physics Rehovot 76100

**Nanometric processing of metals with femtosecond laser nearfield optics**
Dr. Carsten Fallnich Laserzentrum Hannover (LZH) 30419 Hannover	Prof. Dr. Aaron Lewis Hebrew University of Jerusalem Givat Ram Campus Jerusalem 91904

Seitenanfang

X-ray Generation

**An ultrashort x-ray emission from gas clusters irradiated by ultrashort laser pulses**
Dr. P.V. Nickles Max Born Institut für Nichtlineare Optik und Kurzzeitspektroskopie (MBI) 12489 Berlin	Prof. Dr. A. Zigler Hebrew University Racah Institute of Physics Givat Ram Jerusalem

Seitenanfang

Analytics

**Nonlinear microscopy with shaped femtosecond pulses**
Prof. Dr. Roland Sauerbrey Friedrich Schiller Universität Jena 07743 Jena	Prof. Dr. Yaron Silberberg Weizmann Institute of Science Dept. of Physics of Complex Systems Rehovot 76100

**Grating waveguide structures for nonlinear optics and biotechnology**
Dr. Silvia Soria Laser-Laboratorium Göttingen e.V. D-37016 Göttingen	Prof. Dr. Asher Friesem Weizmann Institute of Science Rehovot 76100

Seitenanfang

Results at the Photonics Laboratory

In the framework of the GILCULT project, we developed a novel micro-processor controlled high-voltage driver for deformable mirrors. Detailed information about this device is available in a PDF document which you can download below.

Downloads:

High-voltage driver for deformable mirrors (pdf, 433 KB)

German Israeli Cooperation in Ultrafast Laser Technologies (GILCULT)

Laser Radiation Sources

General Pulse Shaping

Coherent Control

Materials Processing

X-ray Generation

Analytics

Results at the Photonics Laboratory

Downloads: