phase shift dielectric mirror

I.e some rays will have to be reflected from an AOI of 49 degrees. Approximate intensity profile of your beam (e.g., Gaussian), Linear power density of your beam (total power divided by 1/e, Energy density of your beam (total energy divided by 1/e, Pulse repetition frequency (prf) of your laser. I will reach out to you directly with data we have on the phase difference. opposite end) We look forward to your inquiry. While the broadband mirror would likely be damaged by the laser, the more specialized laser line mirror is appropriate for use with this system. In an instrument we are going to use broadband mirrors 540 nm to 900 nm at nominal an AOI of 45 degrees. Thank you for contacting Thorlabs. Hi, 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. Hello, thank you for contacting Thorlabs. Response from Laurie @ Thorlabs to ulbricht: Thank you for your inquiry. I will send this data to you via email. We have contacted you with a theoretical GVD curve of our E03 mirrors. Thorlabs' Fused Silica Broadband Dielectric Mirrors offer excellent reflectance over four different spectral ranges. The reflectance of a coating is dependent on the wavelength of the light source, in addition to the angle of incidence. Please add on large plot at the bottom of the plots tab that shows all the mirrors on one plot. The surface flatness of. Thank you for contacting Thorlabs. Pulse energy will be 50 microjoule/pulse. Simple dielectric mirrors function like one-dimensional photonic crystals, consisting of a stack of layers with a high refractive index interleaved with layers of a low refractive index (see diagram). Pulses shorter than 10-9 s cannot be compared to our specified LIDT values with much reliability. We will reach out to you directly with a quote for these larger size custom mirrors. I guess i will input the code key into the input box labeled 'Reload', should i know what Reload means in this context, have to admit that i do not.”, Fused Silica Broadband Dielectric Mirrors, Ø7.0 mm Broadband Dielectric Mirror, 400 - 750 nm, Ø7.0 mm Broadband Dielectric Mirror, 750 - 1100 nm, Ø7.0 mm Broadband Dielectric Mirror, 1280 - 1600 nm, Ø1/2" Broadband Dielectric Mirror, 350 - 400 nm, Ø1/2" Broadband Dielectric Mirror, 350 - 400 nm, 10 Pack, Ø1/2" Broadband Dielectric Mirror, 400 - 750 nm, Ø1/2" Broadband Dielectric Mirror, 400 - 750 nm, 10 Pack, 1/2" x 1/2" Broadband Dielectric Mirror, 400 - 750 nm, Ø1/2" Broadband Dielectric Mirror, 750 - 1100 nm, Ø1/2" Broadband Dielectric Mirror, 750 - 1100 nm, 10 Pack, 1/2" x 1/2" Broadband Dielectric Mirror, 750 - 1100 nm, Ø1/2" Broadband Dielectric Mirror, 1280 - 1600 nm, Ø1/2" Broadband Dielectric Mirror, 1280 - 1600 nm, 10 Pack, Ø19.0 mm Broadband Dielectric Mirror, 350 - 400 nm, Ø19.0 mm Broadband Dielectric Mirror, 400 - 750 nm, Ø19.0 mm Broadband Dielectric Mirror, 750 - 1100 nm, Ø19.0 mm Broadband Dielectric Mirror, 1280 - 1600 nm, Ø1" Broadband Dielectric Mirror, 350 - 400 nm, Ø1" Broadband Dielectric Mirror, 350 - 400 nm, 10 Pack, Ø1" Broadband Dielectric Mirror, 400 - 750 nm, Ø1" Broadband Dielectric Mirror, 400 - 750 nm, 10 Pack, 1" x 1" Broadband Dielectric Mirror, 400 - 750 nm, Ø1" Broadband Dielectric Mirror, 750 - 1100 nm, Ø1" Broadband Dielectric Mirror, 750 - 1100 nm, 10 Pack, 1" x 1" Broadband Dielectric Mirror, 750 - 1100 nm, Ø1" Broadband Dielectric Mirror, 1280 - 1600 nm, Ø1" Broadband Dielectric Mirror, 1280 - 1600 nm, 10 Pack, Ø2" Broadband Dielectric Mirror, 350 - 400 nm, Ø2" Broadband Dielectric Mirror, 350 - 400 nm, 10 Pack, Ø2" Broadband Dielectric Mirror, 400 - 750 nm, Ø2" Broadband Dielectric Mirror, 400 - 750 nm, 10 Pack, 2" x 2" Broadband Dielectric Mirror, 400 - 750 nm, Ø2" Broadband Dielectric Mirror, 750 - 1100 nm, Ø2" Broadband Dielectric Mirror, 750 - 1100 nm, 10 Pack, 2" x 2" Broadband Dielectric Mirror, 750 - 1100 nm, Ø2" Broadband Dielectric Mirror, 1280 - 1600 nm, Ø2" Broadband Dielectric Mirror, 1280 - 1600 nm, 10 Pack, Ø3" Broadband Dielectric Mirror, 400 - 750 nm, Ø3" Broadband Dielectric Mirror, 750 - 1100 nm, Ø4" Broadband Dielectric Mirror, 400 - 750 nm, Ø4" Broadband Dielectric Mirror, 750 - 1100 nm, Excellent Reflectance Over Specified Wavelength Ranges and Angles of Incidence, Round Mirror Diameters: 7.0 mm, 1/2", 19.0 mm, 1", 2", 3", or 4", Square Mirror Edge Lengths: 1/2", 1", or 2", 350 - 400 nm (Not Stocked with Ø7.0 mm, Ø3", Ø4", or Square Substrates), 1280 - 1600 nm (Not Stocked with Ø3", Ø4", or Square Substrates), The power density of your beam should be calculated in terms of W/cm.

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