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Single-Mode Fibers

ArmD® UV
Armadillo Sia
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ArmD® UV
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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. 

Specifications
Mode Field Diameter (MFD): N/A um
Wavelength Range: 190-1200nm
Cable Length: N/A m
Fiber Core Material: Silica
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ArmD® NIR
Armadillo Sia
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ArmD® NIR
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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. 

Specifications
Mode Field Diameter (MFD): N/A um
Wavelength Range: 300-2400nm
Cable Length: N/A m
Fiber Core Material: Silica
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ArmD® Broadband
Armadillo Sia
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ArmD® Broadband
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Introducing ArmD® Broadband by Armadillo: A remarkably low-loss solution optimized for wavelengths ranging from 200 nm to 2000 nm. This innovative fiber harnesses the combined properties of UV and NIR fibers, tailored for a spectrum of technical applications, including broad spectroscopy and precision Astronomy Instruments.

Specifications
Mode Field Diameter (MFD): N/A um
Wavelength Range: 200-2000nm
Cable Length: N/A m
Fiber Core Material: Silica
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ArmD® UV-HC/NIR-HC
Armadillo Sia
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ArmD® UV-HC/NIR-HC
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ArmD® UV-HC and ArmD® NIR-HC hard polymer-clad fibers offer high numerical apertures to suit a broad range of applications, from remote illumination to photodynamic therapy. This high-quality fiber is a cost-effective alternative to silica/silica fibers. Explore our range of jacket types and sizes, including customizable ...

Specifications
Mode Field Diameter (MFD): N/A um
Wavelength Range: 350-2200nm
Cable Length: N/A m
Fiber Core Material: Silica
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ArmD® UV Shaped, ArmD® NIR Shaped
Armadillo Sia
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ArmD® UV Shaped, ArmD® NIR Shaped
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Armadillo’s angular core silica optical fibers exhibit exceptional performance and transmission to ArmD® UV/NIR fibers with circular core geometry. Their excellent image scrambling and minimal focal ratio degradation make them ideal for astronomy applications. When paired with diode lasers producing square-shaped outputs, ...

Specifications
Mode Field Diameter (MFD): N/A um
Wavelength Range: 300-2400nm
Cable Length: N/A m
Fiber Core Material: Silica
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ArmD® UV-SC/NIR-SC
Armadillo Sia
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ArmD® UV-SC/NIR-SC
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Armadillo’s plastic-clad silica fibers ensure high transmission values across UV to NIR wavelengths, catering to applications ranging from remote illumination to high-power laser delivery and spectroscopy. Our ArmD® UV-SC and NIR-SC fibers, excelling in UV and MIR transmission, provide full bio-compatibility and ...

Specifications
Mode Field Diameter (MFD): N/A um
Wavelength Range: 350-2200nm
Cable Length: N/A m
Fiber Core Material: Silica
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Metal Coated Single Mode Fiber: Gold and Aluminum
Heracle GmbH
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Metal Coated Single Mode Fiber: Gold and Aluminum
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The featured Singlemode (SM 9/125) metal coated fiber operates at 1310 nm and 1550 nm wavelength, according to G.652 A/B standards. The fiber is supplied with either 24 kt Gold or Aluminum coatings As an electric conductor, these types of coatings provide the user with the ability to terminate the fiber directly to the coating, ...

Specifications
Mode Field Diameter (MFD): 9.2 um
Wavelength Range: 1310-1550nm
Cable Length: 100 m
Fiber Core Material: Silica
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SM-Raman-P
Coractive
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SM-Raman-P
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Coractive’s SM-Raman-P is a single-mode fiber specifically designed for applications that require Raman gainefficiency. This fiber offers good overall performance, low splice loss and can provide gain at any wavelengthbetween 1100 nm and 1700 nm.

Specifications
Mode Field Diameter (MFD): 6.2 um
Wavelength Range: 1100-1700nm
Cable Length: n/a m
Fiber Core Material: Silica
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Attenuating Optical Fiber - ATN-FB
Coractive
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Attenuating Optical Fiber - ATN-FB
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Coractive’s attenuation optical fiber (ATN) products have been specifically designed to provide flat attenuation. Wideband uniform attenuation ensures full compatibility with current and future DWDM, CATV and other telecom systems. The ATN-FB has a wide attenuation range (<15 dB/cm) for manufacturing in-line fixed ...

Specifications
Mode Field Diameter (MFD): 9 um
Wavelength Range: 1295-1565nm
Cable Length: n/a m
Fiber Core Material: Not Specified
Attenuation Range (dB/cm): 0.4-15
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Attenuating Optical Fiber - ATN-FBL
Coractive
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Attenuating Optical Fiber - ATN-FBL
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Coractive’s attenuation optical fiber (ATN) products have been specifically designed to provide flat attenuation. Wideband uniform attenuation ensures full compatibility with current and future DWDM, CATV and other telecom systems. The ATN-FBL has a wide attenuation range (<0.4 dB/cm) for manufacturing patchcord-type ...

Specifications
Mode Field Diameter (MFD): 9 um
Wavelength Range: 1295-1565nm
Cable Length: n/a m
Fiber Core Material: Not Specified
Attenuation Range (dB/cm): 0.005 - 0.4
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COPPER-COATED SINGLE-MODE FIBERS OK-9/125-C/Cu
FORC-Photonics
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COPPER-COATED SINGLE-MODE FIBERS OK-9/125-C/Cu
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Copper-coated single mode optical fibers have all the benefits include increased mechanical strength and greater fatigue resistance compared to non-hermetic and polymer-clad fibers (PCS). Their transmittance covers a spectral range of 1300 to 1600 nm. The temperature range is from -196oC to +600oC.

Specifications
Mode Field Diameter (MFD): 7 um
Wavelength Range: 1300-1600nm
Cable Length: NA m
Fiber Core Material: Not Specified
Coating Material: Copper/Copper alloy
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ALUMINUM-COATED SINGLE-MODE FIBERS OK-9-125AL
FORC-Photonics
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ALUMINUM-COATED SINGLE-MODE FIBERS OK-9-125AL
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Aluminum-coated single-mode optical fibers have all the benefits of optical fibers include increased mechanical strength and greater fatigue resistance. Their transmittance covers a spectral range of 1300 to 1600 nm, and also remains stable in corrosive chemicals that normally react to silica glass. The temperature range is from ...

Specifications
Mode Field Diameter (MFD): 9 um
Wavelength Range: 1300-1600nm
Cable Length: NA m
Fiber Core Material: Not Specified
Core Diameters, µm: 9 ± 0,5
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PHOSPHORUS DOPED FIBERS PDF-5/125
FORC-Photonics
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PHOSPHORUS DOPED FIBERS PDF-5/125
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Phosphorus doped fiber PDF-5/125 series is specially designed for highly efficient Raman lasers and amplifiers operating in the 1.1-1.6 µm spectral range.

Specifications
Mode Field Diameter (MFD): 5 um
Wavelength Range: 1056-1672nm
Cable Length: 100 m
Fiber Core Material: Not Specified
Raman Gain @ 1480 Nm, DB/kmW: > 5.0
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HIGH NON-LINEAR FIBERS HNLF
FORC-Photonics
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HIGH NON-LINEAR FIBERS HNLF
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ARTICLE HNLF (s/n Ge304): HNLF series is designed to maximize fiber nonlinearity and minimize optical loss, which makes such fibers optimal for constructing highly efficient Raman lasers and amplifiers, dispersion compensators and various non-linear devices. ARTICLE HNLF DS (s/n Ge137): HNLF DS series is designed for ...

Specifications
Mode Field Diameter (MFD): 4 um
Wavelength Range: 1050-2300nm
Cable Length: NA m
Fiber Core Material: Not Specified
Dispersion @ 1550nm, Ps/nm/km : < - 50
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GERMANATE GLASS CORE FIBERS GDF-MM-8-125-98
FORC-Photonics
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GERMANATE GLASS CORE FIBERS GDF-MM-8-125-98
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Germanate glass core fiber GDF-MM-8/125-98 is used for a variety of nonlinear applications.

Specifications
Mode Field Diameter (MFD): 8 um
Wavelength Range: 550-2800nm
Cable Length: NA m
Fiber Core Material: Not Specified
Core Diameter, µm: 8 x 7 (elliptical)
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GERMANATE GLASS CORE FIBERS GDF-SM-2.2-125-75
FORC-Photonics
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GERMANATE GLASS CORE FIBERS GDF-SM-2.2-125-75
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Germinate glass core fiber GDF-SM-2.2/125-75 series is higly Ge-doped silica fibers used for variety of nonlinear applications.

Specifications
Mode Field Diameter (MFD): 2,2 um
Wavelength Range: 1000-2300nm
Cable Length: NA m
Fiber Core Material: Not Specified
Core Diameter, µm: 2.2
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Suspended-Core PCF Fiber
PERFOS
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Suspended-Core PCF Fiber
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Suspended-core PCF Fiber.  

Specifications
Mode Field Diameter (MFD): 2 um
Wavelength Range: 1000-1550nm
Cable Length: -- m
Fiber Core Material: Silica
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ENDLESSLY SINGLE MODE PCF FIBER
PERFOS
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ENDLESSLY SINGLE MODE PCF FIBER
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ENDLESSLY SINGLE MODE PCF FIBER.

Specifications
Mode Field Diameter (MFD): 7.2 um
Wavelength Range: 400-1600nm
Cable Length: -- m
Fiber Core Material: Silica
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SUPERCONTINUUM PHOTONIC CRYSTAL FIBRE SUP-2-135
PERFOS
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SUPERCONTINUUM PHOTONIC CRYSTAL FIBRE SUP-2-135
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These single mode fibres at the pump wavelength offer both low dispersion at the pump wavelength and high numerical aperture and are therefore particularly suited for the efficient generation of supercontinuum with ti-sapphire and YAG pulsed pump sources.  

Specifications
Mode Field Diameter (MFD): 1.6 um
Wavelength Range: 1200-1600nm
Cable Length: -- m
Fiber Core Material: Silica
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Adamant Namiki\'s Optical Patch Cord
Adamant America
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Adamant Namiki\'s Optical Patch Cord
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Our optical patch cord assemblies consist of optical fiber terminated with various types of fiber optic connectors such as the FC, SC, MU and LC Connector Types. Our polishing process can ensure certain optical properties with a low Insertion Loss and Return Loss. All of our patch cord assemblies are ...

Specifications
Mode Field Diameter (MFD): N/A um
Wavelength Range: 400-1600nm
Cable Length: N/A m
Fiber Core Material: Silica, Fluoride Glass, Chalcogenide Glass, Not Specified
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There are 32 different Single-Mode Fibers from suppliers and manufacturers listed in this category. In just a few clicks you can compare different Single-Mode Fibers with each other and get an accurate quote based on your needs and specifications. Please note that the prices of Single-Mode Fibers vary significantly for different products based on various factors including technical parameters, features, brand name, etc. Please contact suppliers directly to inquire about the details and accurate pricing information for any product model. Simply navigate to the product page of interest and use the orange button to directly reach out to the respective supplier with one click.

Did You know?

Single mode fibers were invented in 1980 by a group led by Professor Huang Hongjia of the Chinese Academy of Sciences. Subsequently, in 2009 Nobel Prize in Physics was awarded to Charles K. Kao for his theoretical work on single-mode optical fibers. Single-mode fiber finds its application in long distance, higher bandwidth runs by Telcos, CATV companies, and Colleges and Universities. A peculiar property of single-mode fibers is that the transverse intensity profile at the fiber output has a fixed shape, which is independent of the launch conditions and the spatial properties of the injected light. Single Mode fiber optic cable has a small diametric core that allows only one mode of light to propagate. Because of this, the number of light reflections created as the light passes through the core decreases, lowering attenuation and creating the ability for the signal to travel faster,
Read more in our Blog
External links:
1 - Single-Mode Optical Fiber
2 - Applications in optical tweezers