High power Yb:YAG innoslab fs-amplifier (2008)
Rußbüldt, P., Mans, T., Hoffmann, D., Poprawe, R.
For high throughput applications a diode-pumped Yb:YAG Innoslab fs-amplifier, scalable to several 100W, was realized. At 63.2MHz repetition rate and 77W average output power nearly transform and...
Gain at the end configuration of a diode-pumped, Kerr-lens mode-locked Cr:LiSGaF laser (1998)
Rußbüldt, P., Gäbel, K., Du, K., Lebert, R., Loosen, P., Poprawe, R., ...
Fulltext: Currently the widespread application of fs-lasers is limited by price and complexity. One approach for userfriendly systems are diode-pumped Kerr-lens mode-locked (KLM) fs-lasers with...
Diode pumped Cr3+:LiCAF fs-laser (1998)
Gäbel, K.M., Rußbüldt, P., Lebert, R., Valster, A.
We demonstrate the first diode pumped, mode locked Cr3+: LiCAF-laser. Transform limited 52 fs pulses were generated at 793 nm with 75 mW mode locked output power. Low loss chirped mirrors were used...
Diode pumped, chirped mirror dispersion compensated, fs-laser (1998)
Gäbel, K., Rußbüldt, P., Lebert, R., Loosen, P., Poprawe, R., Heyer, H., ...
We demonstrate the first diode pumped, Kerr-lens mode locked fs-laser which is completely dispersion compensated by chirped mirrors. Low loss chirped mirrors together with advanced pump diodes...
New concepts for compact diode-pumped fs-lasers (1997)
Gäbel, K., Rußbüldt, P., Rotarius, G., Bette, B., Lebert, R., Du, K., ...
We report the successful implementation of Gires-Tournois(GTI) and chirped mirrors in a diode-pumped, Kerr-lens modelocked (KLM) Cr:LiSGaF laser. The laser delivered 30mW of 79fs nearly transform...
Micromachining by picosecond laser radiation: Fundamentals and applications (1997)
Jandeleit, J., Rußbüldt, P., Kreutz, E.W., Treusch, H.G.
Decreasing film thicknesses and sizes of microstructures require an ultraprecise removal of the material and a reduction of the heat-affected zone. For these applications picosecond laser pulses seem...
Jandeleit, J., Rußbüldt, P., Urbasch, G., Hoffmann, D., Treusch, H.G.
Material ablation induced by picosecond laser radiation was investigated. The first 20 nanoseconds of the ablation process were analysed by high-speed photography and pump and probe, measurements...