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| Test set up of the two-beam version of the FFS. |
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Primary processes in nature often occur on a femtosecond time scale. The use of mode-locked lasers with ultrashort pulse durations is the method of choice to resolve the dynamics of such phenomena in "real time". The flexible concept of the with its various options enables the user to configure his preferred laser system.
- FFS CONT (980 - 2100 nm) for the study of molecules and semiconductor materials
- FFS (775 nm) and FFS (1550 nm) for multiphoton excitation
- FFS TSHG (485 - 700 nm) for tunable picosecond beams
- SYNC and PLL options for synchronization to accelerators, pulsed magnets, synchrotrons, other lasers
- ECOPS for electronically controlled optical sampling
- Two-beam laser systems with individually configered beams (FFS Scientific)
- Laser systems with phase coherent pulses at different wavelengths (FFS Scientific)
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| Contact |
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TOPTICA Photonics AG
Lochhamer Schlag 19
82166 Graefelfing (Munich)
Germany
T +49 89 85837-0
F +49 89 85837-200
TOPTICA Photonics Inc.
1286 Blossom Drive
Victor, NY 14564
USA
T 585.657.6663
F 877.277.9897
sales@toptica.com
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