ArmD® NIR
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- No markups, no fees
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Ships from:
Latvia
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Sold by:
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On FindLight:
since 2020
Description
Armadillo’s high quality ArmD® UV and ArmD® NIR fibers showcase outstanding performance and transmission across a wide spectrum, from deep UV to MIR. Explore an array of jacket types and sizes, including customizable options designed to match your exact specifications.
ArmD® NIR
Specifications |
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Mode Field Diameter (MFD): | Not Specified |
Wavelength Range: | 300 – 2400 nm |
Cable Length: | Not Specified |
Fiber Core Material: | Silica |
Features
- Pure synthetic, fused silica glass core
- High resistance against laser damage
- Step-index profile
- Special jackets available for high temperatures, high vacuum and harsh chemicals Very low NA expansion
- Biocompatible material
- Sterilisable using ETO and other methods
Applications
First choice for applications including spectroscopy, medical diagnostics, medical technology, laser delivery systems and many more.
Frequently Asked Questions
ArmD® NIR is the first choice for applications including spectroscopy, medical diagnostics, medical technology, laser delivery systems, and many more.
ArmD® NIR has a pure synthetic, fused silica glass core, high resistance against laser damage, step-index profile, and very low NA expansion. It is also available with a choice of several jacket types and sizes, as well as custom-designed products and sizes to meet your specifications.
ArmD® NIR has a wavelength/spectral range of 300-2400 nm, a numerical aperture (NA) of 0.22 ± 0.02 or customized, and an operating temperature range of -190 to +350 °C. It is available with a core diameter of 25 to 2000 µm and standard core/cladding ratios of 1:1.04, 1:1.06, 1:1.1, 1:1.15, 1:1.2, 1:1.25, 1:1.4 or customized.
Cleave N Connect™ technology is a feature of the new ArmD® NIR with a hard polymer buffer. It eliminates messy silicone stripping.
ArmD® NIR is a high-quality fiber that exhibits exceptional performance and transmission from the deep UV to the IR. It is ideal for applications including spectroscopy, Thomson scattering, and medical diagnostics.