OSE-HTFM
Surface Accuracy Mirror
Mirrors with high surface accuracy are realized by optimizing the conditions of substrate, thickness and coating.
OSE-HTFM
Mirrors with high surface accuracy are realized by optimizing the conditions of substrate, thickness and coating.
OSE-FLM
Dieser Spiegel ist so konzipiert, dass er eine geringe Wellenlängendispersion aufweist, die für die Verwendung mit Ultrakurzpulslasern mit 100 Femtosekunden oder weniger geeignet ist.
OSE-FLMHP
This mirror is designed to have a low wavelength dispersion suitable for use with ultrashort pulse lasers of 100 femtoseconds or less.
This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.
OSE-TFA-R-20
This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.
OSE-TFAN-R
This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.
OSE-TFAQ-R-20
This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.
OSE-TFAQN-R
This is a vapor-deposited aluminum flat mirror in which the substrate has been polished to a high degree of accuracy and is designed for high reflectivity at any angle of incidence.
This laser beam profiler features a CMOS sensor that guarantees frame rates of up to 60 Hz with high dynamics and is suitable for large beam diameters up to 11 mm.
The beam analysis camera WinCamD-IR-BB with integrated microbolometer array enables analyzes on long-wave lasers in the range of 2 μm to 16 μm.
DataRay's ILM system is used for beam profile monitoring of high power lasers consisting of an attenuator for high powers, an imaging lens system and a camera system. The measurement of very small laser beams with diameters of less than micrometers is possible despite often high laser powers.