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Polarizers, Waveplates, Beamsplitters
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Optical polarizer
The Absorptive polarizers are channel specific for the Red, Blue, and Green channels.
There are two types of Absorptive polarizers, the General Performance and High Performance absorptive polarizers. These polarizers...
There are two types of Absorptive polarizers, the General Performance and High Performance absorptive polarizers. These polarizers...
Optical polarizer
The Absorptive polarizers are channel specific for the Red, Blue, and Green channels.
There are two types of Absorptive polarizers, the General Performance and High Performance absorptive polarizers. These polarizers...
There are two types of Absorptive polarizers, the General Performance and High Performance absorptive polarizers. These polarizers...
Optical polarizer Glan-Taylor
EDMUND OPTICS Glan-Taylor Polarizers feature a high extinction ratio, whereas both extraordinary or ordinary rays are perfectly accessible. The extraordinary rays are transferred through both prisms, unlike ordinary rays, which are reflected off the hypotenuse,...
Optical polarizer Glan-Taylor
EDMUND OPTICS Glan-Taylor Polarizers feature a high extinction ratio, whereas both extraordinary or ordinary rays are perfectly accessible. The extraordinary rays are transferred through both prisms, unlike ordinary rays, which are reflected off the hypotenuse,...
Waveplate
Wave plates, also known as retardation plates, alter the polarization of the incident beam by first resolving it into two perpendicularly polarized components. When the beam emerges, after passing through a wave plate, it recombines to form a single beam with an altered polarization...
Waveplate
Wave plates, also known as retardation plates, alter the polarization of the incident beam by first resolving it into two perpendicularly polarized components. When the beam emerges, after passing through a wave plate, it recombines to form a single beam with an altered polarization...
Polarizing separator / block type / optical beam - 400 - 3000 nm
Wavelength range 400nm to 3000nm. Specific wavelengths on request
When a light beam is incident onto a surface inclined at an angle of incidence to the incoming beam, the reflected and transmitted light becomes partially polarised. This can be resolved...
When a light beam is incident onto a surface inclined at an angle of incidence to the incoming beam, the reflected and transmitted light becomes partially polarised. This can be resolved...
Polarizing separator / block type / optical beam - 400 - 3000 nm
Wavelength range 400nm to 3000nm. Specific wavelengths on request
When a light beam is incident onto a surface inclined at an angle of incidence to the incoming beam, the reflected and transmitted light becomes partially polarised. This can be resolved...
When a light beam is incident onto a surface inclined at an angle of incidence to the incoming beam, the reflected and transmitted light becomes partially polarised. This can be resolved...
Waveplate achromatic
Wave plates, also known as retardation plates, alter the polarization of the incident beam by first resolving it into two perpendicularly polarized components. When the beam emerges, after passing through a wave plate, it recombines to form a single beam with an altered polarization...
Waveplate achromatic
Wave plates, also known as retardation plates, alter the polarization of the incident beam by first resolving it into two perpendicularly polarized components. When the beam emerges, after passing through a wave plate, it recombines to form a single beam with an altered polarization...
Waveplate - 532 nm, 633 nm, 1064 nm
Greater quality raised wave-plate: Requirement includes: 1064 nm best Wavelength, Nd:YAG Laser variety, 5 MW/sq.cm, damage Threshold at 10 J/sq.cm for 20 nanosecond pulses at 1064 nm, 12.7 mm diameter, sparkler...
Waveplate - 532 nm, 633 nm, 1064 nm
Greater quality raised wave-plate: Requirement includes: 1064 nm best Wavelength, Nd:YAG Laser variety, 5 MW/sq.cm, damage Threshold at 10 J/sq.cm for 20 nanosecond pulses at 1064 nm, 12.7 mm diameter, sparkler...
Optical laser beam separator
Diffractive Beam Splitters are phase structures that split the input beam into multiple diffractive orders without compromising the divergence, angle, diameter and polarization...
Optical laser beam separator
Diffractive Beam Splitters are phase structures that split the input beam into multiple diffractive orders without compromising the divergence, angle, diameter and polarization of the input beam. Unlike the other diffractive beam splitters, Jenoptik made it its goal to efficiently divide a single laser beam into multiple ones with well-specified spacing, intensity ratios and beam pattern symmetries. This very astonishing beam splitters work superbly at precisely controlled ratios and is made with infrared materials. This is also very durable because the materials used are specially made with high damage threshold. Best of all, customized designs are also available upon request.
Computer-generated hologram
Computer Generated Holograms can be made to adjust the wavefront of a test item to a particular wavefront to make the testing process for a Fizeau interferometer to work with care. This may be used with a CGH added between...
Computer-generated hologram
Computer Generated Holograms can be made to adjust the wavefront of a test item to a particular wavefront to make the testing process for a Fizeau interferometer to work with care. This may be used with a CGH added between a transmission sphere and the item to be measured. The distance has to be short to make the full aperture more useful. This uses a diffraction in a hologram to adjust the spherical test wave to make it all effective with a test process.
The Optical Systems Division at Jenoptik makes CGHs that can be adjusted to measurement setups as needed. The holograms created can work with a quick process and works with a CGH test setup that can work with a good consultancy service. This is needed as not all aspherical shapes can work with CGHs. A holder may also be used for the substrate to make the control process as easy to manage as possible.
The Optical Systems Division at Jenoptik makes CGHs that can be adjusted to measurement setups as needed. The holograms created can work with a quick process and works with a CGH test setup that can work with a good consultancy service. This is needed as not all aspherical shapes can work with CGHs. A holder may also be used for the substrate to make the control process as easy to manage as possible.