Newport MKS Datasheets for Fiber Optic Light Guides
Fiber optic light guides are bundles of optical fibers used for the controlled deliver of light. They tend to be more rigid, and transmit well in both the visible and near-infrared (near-IR) regions of the electromagnetic spectrum. Fiber optic light guides are sometimes called fiber optic light pipes (fiber optic lightpipes).
Fiber Optic Light Guides: Learn more
| Product Name | Notes |
|---|---|
| The 76841 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 76842 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 76843 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 76846 Bifurcated Liquid Light Guide is for dual source applications. The single end does not meet into a common circular core, as the two cores are stacked in the... | |
| The 76847 Bifurcated Liquid Light Guide is for dual source applications. The single end does not meet into a common circular core, as the two cores are stacked in the... | |
| The 76848 Bifurcated Liquid Light Guide is for dual source applications. The single end does not meet into a common circular core, as the two cores are stacked in the... | |
| The 76849 Bifurcated Liquid Light Guide is for dual source applications. The single end does not meet into a common circular core, as the two cores are stacked in the... | |
| The 77524 Glass Fiber Optic Bundle uses a stainless steel protective sheathing around the fibers. This 24 inch long, 0.125 inch diameter glass fiber bundle uses a silica/silica polyimide buffer. | |
| The 77525 Glass Fiber Optic Bundle uses a stainless steel protective sheathing around the fibers. This 36 inch long, 0.125 inch diameter glass fiber bundle uses a silica/silica polyimide buffer. | |
| The 77526 Glass Fiber Optic Bundle uses a stainless steel protective sheathing around the fibers. This 48 inch long, 0.125 inch diameter glass fiber bundle uses a silica/silica polyimide buffer. | |
| The 77527 Glass Fiber Optic Bundle uses a stainless steel protective sheathing around the fibers. This 72 inch long, 0.125 inch diameter glass fiber bundle uses a silica/silica polyimide buffer. | |
| The 77533 Bifurcated Fiber Optic Bundle is comb randomized to produce evenly divided outputs. When light is uniformly focused onto the large unified 0.55 NA input, each leg of a... | |
| The 77538 Glass Fiber Bundle has an 11 mm ferrule at one end and a rectangular slit at the other end. Use it to carry light from a light source... | |
| The 77539 Glass Fiber Bundle has an 11 mm ferrule at one end and a rectangular slit at the other end. Use it to carry light from a light source... | |
| The 77554 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 77555 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 77556 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 77557 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 77564 Standard Grade Fused Silica Fiber Optic Bundle uses a stainless steel protective sheathing around the fibers. This 36 inch long, 0.125 inch diameter Fused Silica bundle uses a... | |
| The 77565 Bifurcated High Grade Fused Silica Fiber Optic Bundle is comb randomized to produce evenly divided outputs. When light is uniformly focused onto the large unified 0.22 NA input,... | |
| The 77566 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 77567 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 77568 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 77569 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 77575 High Grade Fused Silica Fiber Optic Bundle uses a stainless steel protective sheathing around the fibers. This 24 inch long, 0.063 inch diameter High Grade Fused Silica bundle... | |
| The 77576 High Grade Fused Silica Fiber Optic Bundle uses a stainless steel protective sheathing around the fibers. This 36 inch long, 0.063 inch diameter High Grade Fused Silica bundle... | |
| The 77577 High Grade Fused Silica Fiber Optic Bundle uses a stainless steel protective sheathing around the fibers. This 24 inch long, 0.125 inch diameter High Grade Fused Silica bundle... | |
| The 77628 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 77629 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 77631 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 77632 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 77634 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 77635 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 77636 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 77637 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 77638 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 39.4 inch length... | |
| The 77639 Liquid Light Guide is more efficient and less expensive than a Fused Silica Fiber Bundle and you don’t have to worry about fiber breakage. This 79 inch length... | |
| The 78252 UV-VIS Single Fiber Cable has a core diameter of 200 μm supporting our Mini spectrometers and Bench-top Spectrometers. This version has 250 μm cladding, and is 2 meter... | |
| The 78253 UV-VIS Single Fiber Cable has a core diameter of 400 μm supporting our and Bench-top Spectrometers. This version has 500 μm cladding, and is 1 meter long with... | |
| The 78254 UV-VIS Single Fiber Cable has a core diameter of 400 μm supporting our and Bench-top Spectrometers. This version has 500 μm cladding, and is 2 meter long with... | |
| The 78256 VIS-NIR Single Fiber Cable has a core diameter of 200 μm supporting our and Bench-top Spectrometers. This version has 250 μm cladding, and is 2 meter long with... | |
| The 78257 VIS-NIR Single Fiber Cable has a core diameter of 400 μm supporting our and Bench-top Spectrometers. This version has 500 μm cladding, and is 1 meter long with... | |
| The 78258 VIS-NIR Single Fiber Cable has a core diameter of 400 μm supporting our and Bench-top Spectrometers. This version has 500 μm cladding, and is 2 meter long with... | |
| The 78259 VIS-NIR Single Fiber Cable has a core diameter of 600 μm supporting our and Bench-top Spectrometers. This version has 750 μm cladding, and is 1 meter long with... | |
| The 78260 VIS-NIR Single Fiber Cable has a core diameter of 600 μm supporting our and Bench-top Spectrometers. This version has 750 μm cladding, and is 2 meter long with... | |
| The 78277 UV-VIS Single Fiber Cable has a core diameter of 1000 μm. This version has 1250 μm cladding, and is 1 meter long with SMA connectors. The transmission range... | |
| The 78300 VIS-NIR Single Fiber Cable has a core diameter of 800 μm supporting our and Bench-top Spectrometers. This version has 1000 μm cladding, and is 1 meter long with... | |
| The 78301 VIS-NIR Single Fiber Cable has a core diameter of 800 μm supporting our and Bench-top Spectrometers. This version has 1000 μm cladding, and is 2 meter long with... | |
| The 78302 VIS-NIR Single Fiber Cable has a core diameter of 1000 μm supporting our and Bench-top Spectrometers. This version has 1250 μm cladding, and is 1 meter long with... | |
| The 78303 VIS-NIR Single Fiber Cable has a core diameter of 1000 μm supporting our and Bench-top Spectrometers. This version has 1250 μm cladding, and is 2 meter long with... | |
| The 78367 UV-VIS Single Fiber Cable has a core diameter of 600 μm supporting our and Bench-top Spectrometers. This version has 750 μm cladding, and is 1 meter long with... | |
| The 78368 UV-VIS Single Fiber Cable has a core diameter of 600 μm supporting our and Bench-top Spectrometers. This version has 750 μm cladding, and is 2 meter long with... |