Glan Laser Prism 300 - 700nm 8mm Aperture
GLPB2-08-25SN-3/7
The Glan Laser polarizer are designed to provide an enhanced laser damage threshold for high power lasers and high energy laser pulses. The transmission loss is minimal, and a high extinction ratio below 5×10-5 is obtained. The Calcite type that can be used in the visible to the infrared region, and α-BBO crystal type usable in the ultraviolet region are available.
◦The two prisms are mounted with a small gap (air-gap) to eliminate the adhesive and reduce laser damage.
◦Gran Laser prism is housed in a metal frame. The polarization component which does not pass through the prism exit out of the frame through port (hole) of the metal frame.
◦Since there are two ports, the prism can also be used by replacing the input and output direction.
◦A single-layer anti-reflection coating has been applied on the surface of the Glan Laser prism to provide higher transmittance.
◦Gran Laser prism is housed in a metal frame. The polarization component which does not pass through the prism exit out of the frame through port (hole) of the metal frame.
◦Since there are two ports, the prism can also be used by replacing the input and output direction.
◦A single-layer anti-reflection coating has been applied on the surface of the Glan Laser prism to provide higher transmittance.
Name | Glan Laser Prism 300 - 700nm 8mm Aperture |
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Weight | 0.0310lbs |
Standard Coatings Available | No |
Guide |
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Remark | - |
Attention |
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Image Label | Glan Laser Prism 300 - 700nm 8mm Aperture |
Material | α-BBO , Calcite |
Angular deviation of beam | <3′ |
Transmitted wavefront distortion | λ/4 |
Coating | Both surfaces ; MgF2 single-layer antireflection coating |
Laser Damage Threshold | 2J/cm2 (Laser pulse width ; 10ns ) |
Surface Quality (Scratch-Dig) | 20-10 |
Wavelength Range | 300 - 700nm |
Extinction ratio | <5×10-6 |
φA | φ8mm |
φD×L | 25.4×25mm |
In stock
SKU
GLPB2-08-25SN-3/7
SGD 926.80
The Glan Laser polarizer are designed to provide an enhanced laser damage threshold for high power lasers and high energy laser pulses. The transmission loss is minimal, and a high extinction ratio below 5×10-5 is obtained. The Calcite type that can be used in the visible to the infrared region, and α-BBO crystal type usable in the ultraviolet region are available.