specialty fibers (original) (raw)

Definition: optical fibers with special designs or materials

Category: fiber optics and waveguides

• fiber optics
  • fibers
    * passive fibers
    * active fibers
    * step-index fibers
    * graded-index fibers
    * polarization-maintaining fibers
    * photonic crystal fibers
    * photonic bandgap fibers
    * hollow-core fibers
    * multi-core fibers
    * nanofibers
    * single-mode fibers
    * single-polarization fibers
    * few-mode fibers
    * multimode fibers
    * large-core fibers
    * large mode area fibers
    * tapered fibers
    * mid-infrared fibers
    * dispersion-engineered fibers
    * telecom fibers
    * silica fibers
    * fluoride fibers
    * single-crystal fibers
    * plastic optical fibers
    * specialty fibers
    * phosphate fibers
    * tapered fibers
    * highly nonlinear fibers
    * dispersion-engineered fibers
    * radiation-resistant fibers
    * (more topics)

Related: fibersfiber opticslarge mode area fibershighly nonlinear fibersrare-earth-doped fibersdouble-clad fibersphotonic crystal fibersmid-infrared fiberssingle-crystal fibersradiation-resistant fiberspolarization-maintaining fiberssingle-polarization fibers

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DOI: 10.61835/5wc Cite the article: BibTex BibLaTex plain textHTML Link to this page! LinkedIn

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📦 For purchasing specialty fibers, use the RP Photonics Buyer's Guide — an expert-curated directory for finding all relevant suppliers, which also offers advanced purchasing assistance.

What are Specialty Fibers?

Specialty optical fibers are usually understood as optical fibers which have at least one special property, distinguishing them from standard fibers. However, there is no universally accepted definition of the term standard fiber. One may regard a standard fiber as a simple step-index fiber, made with a standard material (in the case of glass fibers: fused silica) and with common values of parameters like the core size and numerical aperture. Specialty fibers can then belong to various groups:

• Some fibers use non-standard materials. For example, there are fluoride fibers which can transmit in longer (infrared) wavelength regions (→ mid-infrared fibers). Also, there are phosphate glass fibers, which can be more highly doped with laser-active rare earth ions. Some fibers are made from monocrystalline material; they are called single-crystal fibers. There are even liquid core fibers, offering wideband infrared transmission. Special materials may also be used for fiber coatings and jackets.
• Polyimide fibers are optical fibers which are coated with polyimide (but usually have a glass core and cladding). Such fibers can withstand much higher temperatures (roughly 300 °C) than fibers with the more common acrylate coatings.
• Solarization-resistant fibers are made from specially processed fused silica which is relatively resistant to ultraviolet light, avoiding excessive solarization.
• Radiation-resistant fibers are made from materials which are less affected by radiation, possibly also treated e.g. with hydrogen loading and pre-irradiation, and used for example in space applications and in nuclear facilities.
• Active fibers, being doped with laser-active ions (generally with rare earth ions), are often generally regarded as specialty fibers. Double-clad fibers, having an additional larger waveguide structure for pump light, and triple-clad fibers with one more cladding, are even more special.
• Some fibers exhibit extreme or specially tailored parameters, such as an unusually large fiber core diameter or a very high numerical aperture. Also, there are large mode area fibers, exhibiting particularly large fiber modes and correspondingly weak nonlinear effects. The opposite holds for highly nonlinear fibers. Dispersion-shifted fibers have tailored chromatic dispersion properties.
• In dispersion-decreasing fibers, the chromatic dispersion even varies over the length.
• There are spun fibers, where the fiber preform is rotated during the fiber drawing process. They can be used as telecom fibers with much reduced polarization mode dispersion, and also for polarimetric sensors where random birefringence is disturbing.
• Chirally-coupled-core fibers have a core which is surrounded by one or more satellite cores which are chirally wound around it. The satellite cores serve by damping higher-order modes of the central core.
• There are fibers where the waveguide function is not obtained simply with a somewhat increased refractive index in the core (→ step-index fibers), but in some other way. For example, there are photonic crystal fibers, containing air holes and therefore also being called holey fibers.
• Polarization-maintaining fibers of different designs can be used to maintain a linear polarization state over arbitrarily long propagation distances. Single-polarization fibers guide only light with a certain polarization direction.
• Tapered fibers have been stretched to obtain a reduced fiber diameter, which usually changes along the length. They can be used, for example, for mode field adapters.

As there can be so different special properties, it is preferable to use a more specific term than specialty fibers, particularly in scientific publications.

Suppliers

Sponsored content: The RP Photonics Buyer's Guide contains 52 suppliers for specialty fibers. Among them:

⚙ hardware

Explore the distinctive hollow-core photonic crystal fiber technology, guiding light within a hollow channel and enveloped by a microstructured cladding. A unique approach that redefines precision and efficiency in the field of photonics.

As a trailblazing industrial leader, GLO takes the forefront in photonics with a diverse array of hollow-core photonic crystal fiber solutions, tailored to meet the unique needs of our valued partners. Our commitment lies in delivering bespoke HCPCF innovations, setting new standards in the industry.

⚙ hardware

AMS Techno­logies carries a broad portfolio of specialty optical fibers, ranging from high-performance metalized fibers, coated with aluminium or gold to work reliably even at extreme temperatures and withstand harsh environmental conditions, to a wide range of doped optical fibers whose fiber cores are doped with laser-active ions, mostly of rare-earth materials, all the way to highly sophisticated photonic crystal fibers (PCF), used to create a supercontinuum based on quantum optical effects. Our suppliers have all the capabilities to design and fabricate a broad variety of specialty optical fiber structures according to customer orders — contact us to discuss your specialty fiber solution, custom made to cover your project’s requirements.

⚙ hardware

LVF offers the largest range of fluoride fibers in the world, including passive fibers and active fibers for applications ranging from the visible to the mid-infrared.

• ZrF4 (fluorozirconate) fibers transmit light from 0.3 µm up to 4.5 µm.
• InF3 (fluoroindate) fibers transmit light from 0.3 µm up to 5.5 µm.
• GeO2 (germanate) fibers are qualified for high power handling around 2.7–3.0 µm (Er:YAG and Er:YSSG medical lasers).

LVF fluoride fibers are the most transparent fibers on the market in the mid-infrared 2–5 µm band.

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