A beam splitter lenses is an optical element that divides light into two parts. In contrast to beam splitters, beam splitters allow some light to pass through the filter and reflect other light. In laser and lighting systems, beam splitters are a common optical element. Currently, it is mainly used in laser applications that require a 50 to 50 ratio of light separation. In addition, the application range of spectroscopic lenses also includes fluorescence applications, optical interferometry, life sciences or semiconductor instruments, microscopic imaging, machine vision, laser beam splitting, and 3D synthesis. R&D personnel can segment light based on the overall light intensity percentage, polarization state, and wavelength.
Planar beam splitter lenses are divided into non polarized beam splitter and polarized beam splitter
Planar spectroscopic lenses play an important role in separating light source energy and changing the direction of optical path. It has the advantages of simple structure, low light absorption, low optical loss after light splitting, flat separation rate of all dielectric thin films, 30 arc wedges on the back, and good anti reflection effect. It has been widely used in the fields of microscopic imaging, machine vision, laser beam separation, and three-dimensional synthesis. Research results show that planar spectrometers play an important role in separating the energy of light sources and changing the direction of optical paths. They are widely used in fields such as microscopic imaging, machine vision, laser beam separation, and three-dimensional synthesis.
Advantages: With special optical processing substrate, high-precision optical medium coating, accurate spectral ratio, flat spectral curve, no ghosting, high smoothness, imaging without black spots, no stray light, and other advantages, it is a good choice for digital optical instruments.