Two technologies reflect TOPTICA’s dedication to developing high-performance, application-driven laser systems. With practical benefits for end users, from experimental physicists to biomedical researchers, these innovations align with global demands for greater efficiency, compact integration, and user-friendly operation. Winners of the Innovation Award will be announced during LASER World of PHOTONICS held in Munich (D) during June 2025. They are nominated under two catagories.
Explore wide mode-hop-free tuning from 750 to 790 nm! Perfect for pumping and probing (micro) cavities and Rb or K atoms, or for characterizing photonic devices across a broad wavelength range.
CTL lasers are the perfect choice when an application demands large mode-hop-free tuning ranges – from resonant excitation of tiny structures like quantum dots and micro-cavities, to molecular spectroscopy and advanced component testing.
Completely replacing the free-space paths between a watt-level femtosecond laser and a two-photon microscope is a game-changer for modern microscopy, simplifying multi-photon microscopy. By delivering femtosecond pulses directly from the laser source to the microscope via an optical fibre, users can enable entirely new microscope designs while significantly improving laser safety and usability. With the FemtoFiber ultra FD there's no need for mirror alignment or for power meters - automated fibre coupling makes setup fast and easy.
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