0000002197 00000 n

Please refer to the drawing linked below for more information: Trialpha Energy, Inc. Ø1/2" UVFS Broadband Precision Window, Uncoated, t = 3 mm, Ø1" UVFS Broadband Precision Window, Uncoated, t = 1 mm, Ø1" UVFS Broadband Precision Window, Uncoated, t = 5 mm, 25 mm x 36 mm UVFS Broadband Precision Window, Uncoated, t = 1 mm, Ø2" UVFS Broadband Precision Window, Uncoated, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 245 - 400 nm, t = 4.00 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 350 - 700 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 650 - 1050 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 1050 - 1700 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 12 mm, Click on the red Document icon next to the item numbers below to access the Zemax file download.

Hello, thank you for contacting Thorlabs.

can you please provide optical refractive index data of the fused silica material that is used for these UV Fused Silica High-Precision windows. Beam diameter is also important to know when comparing damage thresholds. Please note that we have a buffer built in between the specified damage thresholds online and the tests which we have done, which accommodates variation between batches. While many optics can handle high power CW lasers, cemented (e.g., achromatic doublets) or highly absorptive (e.g., ND filters) optics tend to have lower CW damage thresholds.

Please keep in mind that these tests are performed on clean optics, as dirt and contamination can significantly lower the damage threshold of a component.

�W�p

Book Page. Tom.

Hello, I'd like to ask you if it's possible to provide the UV-fused silica window (WG41010-UV) with 3 mm diameter as a customized item. Extinction coefficient [ i ] k =. Click Link for Detailed Specifications on the Substrate, Average Reflectance across the Specified Wavelength Ranges for an Angle of Incidence of 0° ± 5°, The power density of your beam should be calculated in terms of W/cm. Because fused silica is optically stable and consistent, many use it as a reference or standard for spectroscopic measurements.

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0000002197 00000 n

Please refer to the drawing linked below for more information: Trialpha Energy, Inc. Ø1/2" UVFS Broadband Precision Window, Uncoated, t = 3 mm, Ø1" UVFS Broadband Precision Window, Uncoated, t = 1 mm, Ø1" UVFS Broadband Precision Window, Uncoated, t = 5 mm, 25 mm x 36 mm UVFS Broadband Precision Window, Uncoated, t = 1 mm, Ø2" UVFS Broadband Precision Window, Uncoated, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 245 - 400 nm, t = 4.00 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 350 - 700 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 650 - 1050 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 1050 - 1700 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 12 mm, Click on the red Document icon next to the item numbers below to access the Zemax file download.

Hello, thank you for contacting Thorlabs.

can you please provide optical refractive index data of the fused silica material that is used for these UV Fused Silica High-Precision windows. Beam diameter is also important to know when comparing damage thresholds. Please note that we have a buffer built in between the specified damage thresholds online and the tests which we have done, which accommodates variation between batches. While many optics can handle high power CW lasers, cemented (e.g., achromatic doublets) or highly absorptive (e.g., ND filters) optics tend to have lower CW damage thresholds.

Please keep in mind that these tests are performed on clean optics, as dirt and contamination can significantly lower the damage threshold of a component.

�W�p

Book Page. Tom.

Hello, I'd like to ask you if it's possible to provide the UV-fused silica window (WG41010-UV) with 3 mm diameter as a customized item. Extinction coefficient [ i ] k =. Click Link for Detailed Specifications on the Substrate, Average Reflectance across the Specified Wavelength Ranges for an Angle of Incidence of 0° ± 5°, The power density of your beam should be calculated in terms of W/cm. Because fused silica is optically stable and consistent, many use it as a reference or standard for spectroscopic measurements.

">

0000002197 00000 n

Please refer to the drawing linked below for more information: Trialpha Energy, Inc. Ø1/2" UVFS Broadband Precision Window, Uncoated, t = 3 mm, Ø1" UVFS Broadband Precision Window, Uncoated, t = 1 mm, Ø1" UVFS Broadband Precision Window, Uncoated, t = 5 mm, 25 mm x 36 mm UVFS Broadband Precision Window, Uncoated, t = 1 mm, Ø2" UVFS Broadband Precision Window, Uncoated, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 245 - 400 nm, t = 4.00 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 350 - 700 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 650 - 1050 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 1050 - 1700 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 12 mm, Click on the red Document icon next to the item numbers below to access the Zemax file download.

Hello, thank you for contacting Thorlabs.

can you please provide optical refractive index data of the fused silica material that is used for these UV Fused Silica High-Precision windows. Beam diameter is also important to know when comparing damage thresholds. Please note that we have a buffer built in between the specified damage thresholds online and the tests which we have done, which accommodates variation between batches. While many optics can handle high power CW lasers, cemented (e.g., achromatic doublets) or highly absorptive (e.g., ND filters) optics tend to have lower CW damage thresholds.

Please keep in mind that these tests are performed on clean optics, as dirt and contamination can significantly lower the damage threshold of a component.

�W�p

Book Page. Tom.

Hello, I'd like to ask you if it's possible to provide the UV-fused silica window (WG41010-UV) with 3 mm diameter as a customized item. Extinction coefficient [ i ] k =. Click Link for Detailed Specifications on the Substrate, Average Reflectance across the Specified Wavelength Ranges for an Angle of Incidence of 0° ± 5°, The power density of your beam should be calculated in terms of W/cm. Because fused silica is optically stable and consistent, many use it as a reference or standard for spectroscopic measurements.

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fused silica refractive index

This system falls somewhere between the regimes of CW and pulsed laser induced damage, and could potentially damage an optic by mechanisms associated with either regime. As described on the previous tab, the LIDT value of an optic scales with the square root of the wavelength in the nanosecond pulse regime: This scaling gives adjusted LIDT values of 0.08 J/cm2 for the reflective filter and 14 J/cm2 for the absorptive filter.

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Jan. 15, 2002. Interspecimen comparison of the refractive index of fused silica, J. Opt. We expect the -A and -C coatings to perform similarly.

0000005208 00000 n The index of refraction of optical quality fused silica (SiO2) was determined for 60 wavelengths from 0.21 to 3.71 μ at 20°C.

1Minimum external transmittance at 185 nanometers 18 80% for UV grades when measured through a 0.394"" (10mm) polished, uncoated sample. If your maximum energy density is less than this adjusted LIDT maximum energy density, then the optic should be suitable for your application.

0000002197 00000 n

Please refer to the drawing linked below for more information: Trialpha Energy, Inc. Ø1/2" UVFS Broadband Precision Window, Uncoated, t = 3 mm, Ø1" UVFS Broadband Precision Window, Uncoated, t = 1 mm, Ø1" UVFS Broadband Precision Window, Uncoated, t = 5 mm, 25 mm x 36 mm UVFS Broadband Precision Window, Uncoated, t = 1 mm, Ø2" UVFS Broadband Precision Window, Uncoated, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 245 - 400 nm, t = 4.00 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 245 - 400 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 350 - 700 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 350 - 700 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 650 - 1050 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 650 - 1050 nm, t = 12 mm, Ø1/2" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 3 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 1 mm, Ø1" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 5 mm, Ø1.5" UVFS Vacuum Window, AR Coated: 1050 - 1700 nm, t = 4.04 mm, Ø2" UVFS Broadband Precision Window, AR Coated: 1050 - 1700 nm, t = 12 mm, Click on the red Document icon next to the item numbers below to access the Zemax file download.

Hello, thank you for contacting Thorlabs.

can you please provide optical refractive index data of the fused silica material that is used for these UV Fused Silica High-Precision windows. Beam diameter is also important to know when comparing damage thresholds. Please note that we have a buffer built in between the specified damage thresholds online and the tests which we have done, which accommodates variation between batches. While many optics can handle high power CW lasers, cemented (e.g., achromatic doublets) or highly absorptive (e.g., ND filters) optics tend to have lower CW damage thresholds.

Please keep in mind that these tests are performed on clean optics, as dirt and contamination can significantly lower the damage threshold of a component.

�W�p

Book Page. Tom.

Hello, I'd like to ask you if it's possible to provide the UV-fused silica window (WG41010-UV) with 3 mm diameter as a customized item. Extinction coefficient [ i ] k =. Click Link for Detailed Specifications on the Substrate, Average Reflectance across the Specified Wavelength Ranges for an Angle of Incidence of 0° ± 5°, The power density of your beam should be calculated in terms of W/cm. Because fused silica is optically stable and consistent, many use it as a reference or standard for spectroscopic measurements.

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