Newport MKS Datasheets for Optical Windows
Optical windows are used to isolate different physical environments while allowing light to pass relatively unimpeded.
Optical Windows: Learn more
| Product Name | Notes |
|---|---|
| The 05BW40-30 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1/2 inch (12.7 mm) diameter N-BK7 window is 6 mm thick. | |
| The 05BW40-30AR.14 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1/2 inch (12.7 mm) diameter N-BK7 window is 6 mm thick. | |
| The 05BW40-30AR.18 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1/2 inch (12.7 mm) diameter N-BK7 window is 6 mm thick. | |
| The 05Q12-05UF.AR1 is a 12.7 mm diameter fused silica window with a thickness of 0.5 mm. The window has a minimal wedge of 30 arcsec and is coated on both... | |
| The 05Q20-NL Wedged Window Substrate is 0.5 inch (12.7 mm) diameter uncoated fused silica substrate. Optically finished substrates are made to stringent standards, ready for your specialty coating. These high... | |
| The 05Q20RAR.L Laser Window is made of high purity UV Grade Fused Silica Corning 7980 grade 0A material. It is 12.7 mm diameter x 3.2 mm thick. The front and... | |
| The 05Q20RAR.S Laser Window is made of high purity UV Grade Fused Silica Corning 7980 grade 0A material. It is 12.7 mm diameter x 3.2 mm thick. The front and... | |
| The 05QW20-1 is a Excimer Grade UV Fused Silica window, 12.5 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 1064 nm. | |
| The 05QW20-2 is a Excimer Grade UV Fused Silica window, 12.5 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 532 nm. | |
| The 05QW20-3 is a Excimer Grade UV Fused Silica window, 12.5 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 355 nm. | |
| The 05QW20-4 is a Excimer Grade UV Fused Silica window, 12.5 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 266 nm. | |
| The 05QW40-30 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1/2 inch (12.7 mm) diameter UV Grade Fused Silica window is... | |
| The 05QW40-30AR.10 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1/2 inch (12.7 mm) diameter UV Grade Fused Silica window is... | |
| The 05QW40-30AR.14 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1/2 inch (12.7 mm) diameter UV Grade Fused Silica window is... | |
| The 05QW40-30AR.16 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1/2 inch (12.7 mm) diameter UV Grade Fused Silica window is... | |
| The 05QW40-30AR.18 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1/2 inch (12.7 mm) diameter UV Grade Fused Silica window is... | |
| The 05SW8-180 is a Sapphire Window, 12.70 mm in diameter and 2.00 mm thick. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a consideration. | |
| The 10BW40-30 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1 inch (25.4 mm) diameter N-BK7 window is 6 mm thick. | |
| The 10BW40-30AR.14 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1 inch (25.4 mm) diameter N-BK7 window is 6 mm thick. | |
| The 10BW40-30AR.16 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1 inch (25.4 mm) diameter N-BK7 window is 6 mm thick. | |
| The 10BW40-30AR.18 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1 inch (25.4 mm) diameter N-BK7 window is 6 mm thick. | |
| The 10CF20 is a 1 inch (25.4 mm) in diameter and 2.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between... | |
| The 10CF30 is a 1 inch (25.4 mm) in diameter and 3.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between... | |
| The 10Q12-01UF.AR1 is a 25.4 mm diameter fused silica window with a thickness of 1 mm. The window has a minimal wedge of 30 arcsec and is coated on both... | |
| The 10Q20-NL Wedged Window Substrate is 1.0 inch (25.4 mm) diameter uncoated fused silica substrate. Optically finished substrates are made to stringent standards, ready for your specialty coating. These high... | |
| The 10Q20RAR.L Laser Window is made of high purity UV Grade Fused Silica Corning 7980 grade 0A material. It is 25.4 mm diameter x 4.0 mm thick. The front and... | |
| The 10Q20RAR.S Laser Window is made of high purity UV Grade Fused Silica Corning 7980 grade 0A material. It is 25.4 mm diameter x 4.0 mm thick. The front and... | |
| The 10Q20XAR.14 High-Energy Laser Windows is specially designed to eliminate losses in vacuum cell applications and can be used as a vacuum window, convection barrier, or interferometer compensator plate. This... | |
| The 10Q20XAR.16 High-Energy Laser Windows is specially designed to eliminate losses in vacuum cell applications and can be used as a vacuum window, convection barrier, or interferometer compensator plate. This... | |
| The 10Q20XAR.18 High-Energy Laser Windows is specially designed to eliminate losses in vacuum cell applications and can be used as a vacuum window, convection barrier, or interferometer compensator plate. This... | |
| The 10QB20 Interferometer Flat is ideally suited for use in a laboratory interferometer or as a quality assurance standard. To ensure long-term thermal stability and mechanical accuracy. This 1 inch... | |
| The 10QW20-1 is a Excimer Grade UV Fused Silica window, 25.0 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 1064 nm. | |
| The 10QW20-2 is a Excimer Grade UV Fused Silica window, 25.0 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 532 nm. | |
| The 10QW20-3 is a Excimer Grade UV Fused Silica window, 25.0 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 355 nm. | |
| The 10QW20-4 is a Excimer Grade UV Fused Silica window, 25.0 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 266 nm. | |
| The 10QW40-30 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1 inch (25.4 mm) diameter UV Grade Fused Silica window is... | |
| The 10QW40-30AR.10 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1 inch (25.4 mm) diameter UV Grade Fused Silica window is... | |
| The 10QW40-30AR.14 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1 inch (25.4 mm) diameter UV Grade Fused Silica window is... | |
| The 10QW40-30AR.16 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1 inch (25.4 mm) diameter UV Grade Fused Silica window is... | |
| The 10QW40-30AR.18 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 1 inch (25.4 mm) diameter UV Grade Fused Silica window is... | |
| The 10SI20 is an uncoated, 25.4 mm in diameter and 2.0 mm thick Silicon window. Silicon has good transmission range from 1.2 to 7.0 μm. With its low density (2.329g/cm... | |
| The 10SW8-180 is a Sapphire Window, 25.40 mm in diameter and 2.00 mm thick. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a consideration. | |
| The 10ZS20 is a 1 inch (25.4 mm) diameter, 2.0 mm thick Zinc Selenide window. Zinc Selenide windows have wide variety of usage in high power CO2 laser systems because... | |
| The 10ZS30 is a 1 inch (25.4 mm) diameter, 3.0 mm thick Zinc Selenide window. Zinc Selenide windows have wide variety of usage in high power CO2 laser systems because... | |
| The 20BW40-30 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 2 inch (50.8 mm) diameter N-BK7 window is 10 mm thick. | |
| The 20BW40-30AR.14 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 2 inch (50.8 mm) diameter N-BK7 window is 10 mm thick. | |
| The 20BW40-30AR.16 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 2 inch (50.8 mm) diameter N-BK7 window is 10 mm thick. | |
| The 20BW40-30AR.18 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 2 inch (50.8 mm) diameter N-BK7 window is 10 mm thick. | |
| The 20Q20-NL Wedged Window Substrate is 2.0 inch (50.8 mm) diameter uncoated fused silica substrate. Optically finished substrates are made to stringent standards, ready for your specialty coating. These high... | |
| The 20Q20XAR.14 High-Energy Laser Windows is specially designed to eliminate losses in vacuum cell applications and can be used as a vacuum window, convection barrier, or interferometer compensator plate. This... | |
| The 20Q20XAR.16 High-Energy Laser Windows is specially designed to eliminate losses in vacuum cell applications and can be used as a vacuum window, convection barrier, or interferometer compensator plate. This... | |
| The 20Q20XAR.18 High-Energy Laser Windows is specially designed to eliminate losses in vacuum cell applications and can be used as a vacuum window, convection barrier, or interferometer compensator plate. This... | |
| The 20QB20 Interferometer Flat is ideally suited for use in a laboratory interferometer or as a quality assurance standard. To ensure long-term thermal stability and mechanical accuracy. This 2 inch... | |
| The 20QS20 Shear Plate Collimation Tester is a 2.0 inch (50.8 mm) diameter wedged window that allows for quick testing of collimation by utilizing shearing interferometry. When the collimation tester... | |
| The 20QW20-1 is a Excimer Grade UV Fused Silica window, 50.0 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 1064 nm. | |
| The 20QW20-2 is a Excimer Grade UV Fused Silica window, 50.0 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 532 nm. | |
| The 20QW20-3 is a Excimer Grade UV Fused Silica window, 50.0 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 355 nm. | |
| The 20QW20-4 is a Excimer Grade UV Fused Silica window, 50.0 mm in diameter and 3.0 mm thick with high damage threshold V-coating at 266 nm. | |
| The 20QW40-30 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 2 inch (50.8 mm) diameter UV Grade Fused Silica window is... | |
| The 20QW40-30AR.10 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 2 inch (50.8 mm) diameter UV Grade Fused Silica window is... | |
| The 20QW40-30AR.14 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 2 inch (50.8 mm) diameter UV Grade Fused Silica window is... | |
| The 20QW40-30AR.16 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 2 inch (50.8 mm) diameter UV Grade Fused Silica window is... | |
| The 20QW40-30AR.18 Laser-Grade Parallel Window is parallel to less than 30 arc sec for minimal transmitted beam deviation. This 2 inch (50.8 mm) diameter UV Grade Fused Silica window is... | |
| The 20SW8-180 is a Sapphire Window, 50.80 mm in diameter and 2.00 mm thick. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a consideration. | |
| The 3MQ12-01UF.AR1 is a 30 mm diameter fused silica window with a thickness of 1 mm. The window has a minimal wedge of 30 arcsec and is coated on both... | |
| The 632251-117 Fiber Laser Protective Window is made of fused silica material and is Trumpf® OEM compatible. It has a diameter of 1.34 in. (34 mm), edge thickness of... | |
| The 632252-117 Fiber Laser Protective Window is made of fused silica material and is Precitec® OEM compatible. It has a diameter of 0.88 in. (22.4 mm), edge thickness of... | |
| The 632755-337 Fiber Laser Protective Window is made of fused silica material and is Salvagnini® OEM compatible. It has a diameter of 1.26 in. (32 mm), edge thickness of... | |
| The 632811-117 Fiber Laser Protective Window is made of fused silica material and is Trumpf® OEM compatible. It has a diameter of 0.94 in. (24 mm), edge thickness of... | |
| The 632830-117 Fiber Laser Protective Window is made of fused silica material and is Trumpf® OEM compatible. It has a diameter of 1.18 in. (30 mm), edge thickness of... | |
| The 632851-117 Fiber Laser Protective Window is made of fused silica material and is Bystronic® OEM compatible. It has a diameter of 1.42 in. (36 mm), edge thickness of... | |
| The 632958-117 Fiber Laser Protective Window is made of fused silica material and is CY® OEM compatible. It has a diameter of 1.5 in. (38.2 mm), edge thickness of... | |
| The 633411-117 Fiber Laser Protective Window is made of fused silica material and is Precitec® OEM compatible. It has a diameter of 1.46 in. (37 mm), edge thickness of... | |
| The 634831-117 Fiber Laser Protective Window is made of fused silica material and is Amada® OEM compatible. It has a diameter of 1.77 in. (45 mm), edge thickness of... | |
| The BQW-1 Brewster Window is made with UV grade fused silica with laser grade surface quality and parallelism to make it the ideal polarizer to use within a laser cavity. | |
| The BQW-2 Brewster Window is made with UV grade fused silica with laser grade surface quality and parallelism to make it the ideal polarizer to use within a laser cavity. | |
| The CAW10 is a 5.0 mm in diameter and 1.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between 0.25 μm... | |
| The CAW11 is a 10.0 mm in diameter and 1.5 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between 0.25 μm... | |
| The CAW12 is a 12.5 mm in diameter and 2.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between 0.25 μm... | |
| The CAW13 is a 15.0 mm in diameter and 2.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between 0.25 μm... | |
| The CAW14 is a 25.0 mm in diameter and 3.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between 0.25 μm... | |
| The CAW15 is a 50.0 mm in diameter and 3.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between 0.25 μm... | |
| The CAW16 is a 20.0 mm in diameter and 2.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between 0.25 μm... | |
| The CAW17 is a 30.0 mm in diameter and 3.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between 0.25 μm... | |
| The CAW18 is a 40.0 mm in diameter and 3.0 mm thick Calcium Fluoride window. Calcium fluoride has a wide spectral range with high transmission (above 90%) between 0.25 μm... | |
| The FSW10 is an uncoated, 5.0 mm in diameter and 1.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica is the best choice to... | |
| The FSW10AR.10 is a 250 to 450 nm antireflection coated, 5.0 mm in diameter and 1.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW10AR.14 is a 425 to 675 nm antireflection coated, 5.0 mm in diameter and 1.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW10AR.15 is a 200 to 700 nm antireflection coated, 5.0 mm in diameter and 1.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW11 is an uncoated, 10.0 mm in diameter and 1.3 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica is the best choice to... | |
| The FSW11AR.10 is a 250 to 450 nm antireflection coated, 10.0 mm in diameter and 1.3 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW11AR.14 is a 425 to 675 nm antireflection coated, 10.0 mm in diameter and 1.3 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW11AR.15 is a 200 to 700 nm antireflection coated, 10.0 mm in diameter and 1.3 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW12 is an uncoated, 12.5 mm in diameter and 1.5 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica is the best choice to... | |
| The FSW12AR.10 is a 250 to 450 nm antireflection coated, 12.5 mm in diameter and 1.5 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW12AR.14 is a 425 to 675 nm antireflection coated, 12.5 mm in diameter and 1.5 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW12AR.15 is a 200 to 700 nm antireflection coated, 12.5 mm in diameter and 1.5 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW13 is an uncoated, 15.0 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica is the best choice to... | |
| The FSW13AR.10 is a 250 to 450 nm antireflection coated, 15.0 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW13AR.14 is a 425 to 675 nm antireflection coated, 15.0 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW13AR.15 is a 200 to 700 nm antireflection coated, 15.0 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW14 is an uncoated, 20.0 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica is the best choice to... | |
| The FSW14AR.10 is a 250 to 450 nm antireflection coated, 20.0 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW14AR.14 is a 425 to 675 nm antireflection coated, 20.0 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW14AR.15 is a 200 to 700 nm antireflection coated, 20.0 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW15 is an uncoated, 25.0 mm in diameter and 3.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica is the best choice to... | |
| The FSW15AR.10 is a 250 to 450 nm antireflection coated, 25.0 mm in diameter and 3.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW15AR.14 is a 425 to 675 nm antireflection coated, 25.0 mm in diameter and 3.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW15AR.15 is a 200 to 700 nm antireflection coated, 25.0 mm in diameter and 3.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW16 is an uncoated, 30.0 mm in diameter and 4.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica is the best choice to... | |
| The FSW16AR.10 is a 250 to 450 nm antireflection coated, 30.0 mm in diameter and 4.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW16AR.14 is a 425 to 675 nm antireflection coated, 30.0 mm in diameter and 4.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW16AR.15 is a 200 to 700 nm antireflection coated, 30.0 mm in diameter and 4.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW17 is an uncoated, 40.0 mm in diameter and 4.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica is the best choice to... | |
| The FSW17AR.10 is a 250 to 450 nm antireflection coated, 40.0 mm in diameter and 4.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW17AR.14 is a 425 to 675 nm antireflection coated, 40.0 mm in diameter and 4.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW17AR.15 is a 200 to 700 nm antireflection coated, 40.0 mm in diameter and 4.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW18 is an uncoated, 50.0 mm in diameter and 5.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica is the best choice to... | |
| The FSW18AR.10 is a 250 to 450 nm antireflection coated, 50.0 mm in diameter and 5.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW18AR.14 is a 425 to 675 nm antireflection coated, 50.0 mm in diameter and 5.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW18AR.15 is a 200 to 700 nm antireflection coated, 50.0 mm in diameter and 5.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW19AR.10 is a 250 to 425 nm antireflection coated, 12.5 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW19AR.14 is a 425 to 675 nm antireflection coated, 12.5 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The FSW19AR.15 is a 250 to 700 nm antireflection coated, 12.5 mm in diameter and 2.0 mm thick UV Fused Silica window with λ/10 transmitted wavefront distortion. UV fused silica... | |
| The MGW10 is a 5.0 mm in diameter and 1.0 mm thick Magnesium Fluoride window. Magnesium fluoride has a wide spectral range with high transmission between 0.15 μm and 6.5... | |
| The MGW11 is a 12.5 mm in diameter and 2.0 mm thick Magnesium Fluoride window. Magnesium fluoride has a wide spectral range with high transmission between 0.15 μm and 6.5... | |
| The MGW12 is a 25.0 mm in diameter and 3.0 mm thick Magnesium Fluoride window. Magnesium fluoride has a wide spectral range with high transmission between 0.15 μm and 6.5... | |
| The MGW13 is a 50.0 mm in diameter and 3.0 mm thick Magnesium Fluoride window. Magnesium fluoride has a wide spectral range with high transmission between 0.15 μm and 6.5... | |
| The SAW11 is a Sapphire Window, 5.00 mm in diameter and 1.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW12 is a Sapphire Window, 6.35 mm in diameter and 0.50 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW13 is a Sapphire Window, 9.50 mm in diameter and 0.50 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW14 is a Sapphire Window, 10.0 mm in diameter and 1.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW15 is a Sapphire Window, 12.70 mm in diameter and 3.175 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW17 is a Sapphire Window, 13.00 mm in diameter and 0.50 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW18 is a Sapphire Window, 15.00 mm in diameter and 2.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW19 is a Sapphire Window, 17.25 mm in diameter and 2.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW21 is a Sapphire Window, 22.00 mm in diameter and 1.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW22 is a Sapphire Window, 23.75 mm in diameter and 1.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW23 is a Sapphire Window, 25.00 mm in diameter and 2.30 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW24 is a Sapphire Window, 25.40 mm in diameter and 2.30 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW25 is a Sapphire Window, 30.00 mm in diameter and 1.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW26 is a Sapphire Window, 31.75 mm in diameter and 1.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW27 is a Sapphire Window, 35.00 mm in diameter and 1.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW28 is a Sapphire Window, 38.10 mm in diameter and 1.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW29 is a Sapphire Window, 40.00 mm in diameter and 2.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW31 is a Sapphire Window, 50.8 mm in diameter and 3.15 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... | |
| The SAW32 is a Sapphire Window, 75.00 mm in diameter and 2.00 mm thick, uncoated. Sapphire windows are ideal for applications where high pressure, vacuum, or corrosive atmospheres are a... |