It's noted that in spite ofa wide variety ofrecord results reached up till now for experimental models ofTitanium-Saphire (TiSa) lasers, there is agreat market demand forcom.mercial models of nanosecond pulsed lasers, as well as of ultralast modelocked CW lasers. The commercial models of research-quality nanosecond tunable Ti-Sa lasers developed and manufactured by SOLAR are considered. TI-SA -THE FAVOURED LASING MEDIUMThe Ti-Sa active medium continues to attract researchers and designers attention due to its unique optical and physical properties and spectroscopyfeatures' . Thisactive medium is remarkable for its wide range ofspectral tuning, known both for solid-state and liquid systems. and covering 660. .. 1 178 nm. All possible lasing conditions are realized with Ti-Sa: coherent and flash-lamp pumping. pulsed operation, quasi-CW and CW-operation modes as well as modelocked operation.Some years ago research-quality solid-state lasers began to penetrate significantly into spectroscopy and remote control. Such applications showed a considerable market demand for Ti-Sa products of two types: nanosecond pulsed lasers and ultrafast mode-locked CW lasers. The greatest success of Ti-Sa systems Is supposed on the ultrafast laser market. Although the ultrafast laser applications seem to be rather prospective, the further development of such markets depends on expanding the spectral range of the systems available.Commercial models ofnanosecond tunable Ti-Sa lasers pumped by Q-switched Nd-YAG lasers differ from their dye analogues with some significant advantages. High peak power, good beam quality and narrow spectral band width within a wide tuning range can be achieved simultaneously using available Ti-Sa lasers. These features are more distinctive in comparison with dyes in the near-infrared spectral region.
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