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Polarization-Maintaining Fibers

Our company offers complete equipment technology and process technology for polarization maintaining fiber. Our polarization-maintaining fiber products for gyroscopes adopt a panda structure (Panda) and have high reliability for high polarization crosstalk. These fibers are designed for fiber optic gyroscopes (FOGs) and ...

Specifications

Mode Field Diameter: 6 um
Wavelength Range: 1100-1290nm
Numerical Aperture: -
Fiber Type: Panda
Wavelength Range For All Models: 1100-1290nm, 1290-1520nm
...
Data Sheet
DIAMOND Fiber Optic Components SC-PM
Diamond USA Inc
DIAMOND supplies high-quality solutions for polarization-maintaining (PM) and polarizing (PZ) fiber-optical interfaces providing optimum control of the signal polarization state. Low insertion losses (IL) are achieved in conjunction with high polarization extinction ratios (PER) and high return losses (RL) thanks to a combination of ...

Specifications

Mode Field Diameter: -- um
Wavelength Range: 405-1625nm
Numerical Aperture: --
Fiber Type: Bow Tie
Data Sheet
Shenzhen Optic-forest Inc manufactures and provides fiber optical products, such as isolator, circulator, coupler, FWDM, Polarization Beam Combiner/Splitter, In-line Polarizer, PM Patch cord, PM Collimator, High Power In-line Isolator, PM coupler, PM Circulator etc. We specialized in R&D mass production and marketing fiber optics ...

Specifications

Mode Field Diameter: 9 um
Wavelength Range: 850-1950nm
Numerical Aperture: 0.09
Fiber Type: Panda
Connector Type: UPC
...
Data Sheet
DIAMOND Fiber Optic Components F-3000-PM
Diamond USA Inc
DIAMOND supplies high-quality solutions for polarization-maintaining (PM) and polarizing (PZ) fiber-optical interfaces providing optimum control of the signal polarization state. Low insertion losses (IL) are achieved in conjunction with high polarization extinction ratios (PER) and high return losses (RL) thanks to a combination of ...

Specifications

Mode Field Diameter: -- um
Wavelength Range: 405-1625nm
Numerical Aperture: --
Fiber Type: Bow Tie
Data Sheet
DIAMOND Fiber Optic Components E-2000-PM
Diamond USA Inc
DIAMOND supplies high-quality solutions for polarization-maintaining (PM) and polarizing (PZ) fiber-optical interfaces providing optimum control of the signal polarization state. Low insertion losses (IL) are achieved in conjunction with high polarization extinction ratios (PER) and high return losses (RL) thanks to a combination of ...

Specifications

Mode Field Diameter: -- um
Wavelength Range: 405-1625nm
Numerical Aperture: --
Fiber Type: Bow Tie
Data Sheet
Polarization Maintaining Couplers
Fibersense & Signals Inc
Fibersense manufactures custom polarization maintaining couplers in many configurations and split ratios. Given our proprietary in house capabilities, devices can be manufactured with minimal loss and high extinction ratios in 1 X 2, 2 X 2, 1 X N, and N X M configurations. Fibersense can work with any PM fiber and can provide ...

Specifications

Mode Field Diameter: -- um
Wavelength Range: 400-1600nm
Numerical Aperture: --
Fiber Type: Not Available
Data Sheet
PM couplers are manufactured using PANDA fiber which allows them to maintain a high polarization extinction ratio (PER) when light is launched along the slow axis of the fiber. As seen in the diagram to the right, stress rods run parallel to the fiber\'s core and apply stress that creates birefringence in the fiber\'s core, allowing ...

Specifications

Mode Field Diameter: 9.5 um
Wavelength Range: 980-1550nm
Numerical Aperture: 0.09
Fiber Type: Panda
Data Sheet
Polarization Mantaining Fiber (Panda)

Specifications

Mode Field Diameter: 5.5 & 6.0 & 6.5 um
Wavelength Range: 1310-1550nm
Numerical Aperture: 0.22
Fiber Type: Panda
Data Sheet
Singlemode special fibers are the correct choice for current and future applications in data transmission, optical communications, sensorics and high-power laser transmission. They offer excellent geometrical specifications, high stability and best tolerances in fiber geometry. Our singlemode fibers can be coated with ...

Specifications

Mode Field Diameter: 3.3 um
Wavelength Range: 450-515nm
Numerical Aperture: 0.10-.014
Fiber Type: Not Available
Data Sheet
Polarization-maintaining fibers are special single-mode fibers that maintain the polarization of the light in the fiber. Stress elements embedded in the cladding exert mechanical stresses on the fiber core, which leads to birefringence in the fiber core.The stress elements embedded can have different designs. These fibers are used in ...

Specifications

Mode Field Diameter: 6.6 um
Wavelength Range: 950-1080nm
Numerical Aperture: 0.12
Fiber Type: Panda
Data Sheet
Polarization-maintaining fibers are special single-mode fibers that maintain the polarization of the light in the fiber. Stress elements embedded in the cladding exert mechanical stresses on the fiber core, which leads to birefringence in the fiber core.The stress elements embedded can have different designs. These fibers are used in ...

Specifications

Mode Field Diameter: 4.0 um
Wavelength Range: 480-540nm
Numerical Aperture: 0.1
Fiber Type: Panda
Data Sheet
Polarization-maintaining fibers are special single-mode fibers that maintain the polarization of the light in the fiber. Stress elements embedded in the cladding exert mechanical stresses on the fiber core, which leads to birefringence in the fiber core.The stress elements embedded can have different designs. These fibers are used in ...

Specifications

Mode Field Diameter: 3.3 um
Wavelength Range: 460-630nm
Numerical Aperture: 0.12
Fiber Type: Panda
Data Sheet
Polarization-maintaining fibers are special single-mode fibers that maintain the polarization of the light in the fiber. Stress elements embedded in the cladding exert mechanical stresses on the fiber core, which leads to birefringence in the fiber core.The stress elements embedded can have different designs. These fibers are used in ...

Specifications

Mode Field Diameter: 3.2 um
Wavelength Range: 400-500nm
Numerical Aperture: 0.12
Fiber Type: Panda
Data Sheet

Frequently Asked Questions

Polarization Maintaining Fibers (PM Fibers or PMFs) exhibit birefringence throughout the propagation length of the fiber. As a result of this birefringence only two states of polarization (modes) are sustained within the fiber, each of which maintains their own phase velocities.

Birefringence is defined as a difference in the refractive index along different directions or axes within the same material. Light traveling through birefringent materials will witness different amounts of retardation, depending on its direction of propagation or its orientation. This causes the polarization of light to vary during propagation. Birefringent materials are also called anisotropic.

In order to evaluate the performance of polarization-maintaining fibers, manufacturers rely on a parameter known as the beat length. The beat length is defined as the distance over which the phase difference is equal to 2π. Here, the phase difference is defined as the phase shift between two linearly polarized waves traveling in different directions in a birefringent material. The beat length depends on the wavelength as well as the refractive index difference between the fast and slow axes of the material. Shorter beat lengths indicate a better polarization-maintaining performance.

Polarization-maintaining fibers are useful in many applications where the polarization of light must not be changed, for example in in fiber lasers and sensors. They also find applications in laser coupling, optical switching, and optical amplification.

Most polarization-maintaining fibers can only support one single mode making them single-mode fibers. However, some designs can operate in the few-modes regime, but never in the multimode regime.

A Panda fiber is a type of polarization-maintaining fibers. It is a single-mode fiber where the core is sandwiched between two stress rods. These stress-inducing tubes are made of different material, so that when it expands due to changes in temperature, it induces stresses in the core of the fiber and gives rise to a uniform birefringence. This ensures that the polarization is conserved as the light propagates down the fiber.

There are 13 different Polarization-Maintaining Fibers from suppliers and manufacturers listed in this category. In just a few clicks you can compare different Polarization-Maintaining Fibers with each other and get an accurate quote based on your needs and specifications. Please note that the prices of Polarization-Maintaining 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?

Polarization maintaining optical fibers are specialty fibers used in applications that require the preservation of the polarization state of light as it travels along the length of the fiber. They are designed to maintain the polarization of light along the fiber's length, ensuring that the light travels in a specific orientation. This unique property makes these fibers ideal for use in a wide range of applications such as interferometry, fiber-optic communications, sensing, and photonics. Polarization maintaining fibers are constructed with a stress-induced birefringence, which makes them sensitive to bending and twisting. As a result, care must be taken to avoid mechanical stress, which can affect the polarization properties of the fiber. These fibers come in single-mode and multimode varieties, and are typically made of fused silica or other materials. One of the most significant advantages of polarization maintaining fibers is their ability to maintain the polarization state of light over long distances. This makes them an excellent choice for use in telecommunications networks, where signal loss due to polarization fluctuations can be a major issue. In addition, these fibers have found applications in fiber optic gyroscopes, which are used in navigation systems, and in fiber-optic sensors, which can detect changes in temperature, strain, or other physical parameters.