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fiber,threadlike strand, usually pliable and capable of being spun into a yarn. Many different fibers are known to be usable; some 40 of these are of commercial importance, and others are of local or specialized use. Fibers may be classified as either natural or synthetic. The natural fibers may be further classed according to origin as animal, vegetable, or inorganic fibers.
Animal fibers are composed chiefly of proteins; they include silksilk,
fine, horny, translucent, yellowish fiber produced by the silkworm in making its cocoon and covered with sericin, a protein. Many varieties of silk-spinning worms and insects are known, but the silkworm of commerce is the larva of the Bombyx mori,
..... Click the link for more information. , woolwool,
fiber made from the fleece of the domestic sheep. Composition and Characteristics
Wool consists of the cortex, overlapping scales (sharper and more protruding than those of hair) that may expand at their free edges causing fibers to intermesh; elasticum, the
..... Click the link for more information. , and hair of the goat (known as mohairmohair,
hair of the Angora goat or a large group of fabrics made from it, either wholly or in combination with wool, silk, or cotton. The Angora goat, native of Asia Minor for 2,000 years, is bred in other lands, e.g., the SW United States and South Africa.
..... Click the link for more information. ), llama and alpacaalpaca
, partially domesticated South American mammal, Lama pacos, of the camel family. Genetic studies show that it is a descendant of the vicuña. Although the flesh is sometimes used for food, the animal is bred chiefly for its long, lustrous wool, which varies
..... Click the link for more information. , vicuñavicuña
, wild South American hoofed mammal, Vicugna vicugna, the smallest member of the camel family. It is 30 in. (75 cm) high at the shoulder, with a long, slender neck and pale, fawn coloring.
..... Click the link for more information. , camel, horse, rabbit, beaver, hog, badger, sablesable,
species of marten, Martes zibellina, found in Siberia, N European Russia, and N Finland. This carnivorous mammal is highly valued for its thick, soft fur, which is dark brown or black, sometimes with white underparts and sometimes flecked with silver.
..... Click the link for more information. , and other animals. Vegetable fibers are composed chiefly of cellulose and may be classed as short fibers, e.g., cottoncotton,
most important of the vegetable fibers, and the plant from which the fiber is harvested. The Cotton Plant
The cotton plant belongs to the genus Gossypium of the family Malvaceae (mallow family).
..... Click the link for more information. and kapokkapok
, name for a tropical tree of the family Bombacaceae (bombax family) and for the fiber (floss) obtained from the seeds in the ripened pods. The floss has been important in commerce since the 1890s; the chief source is Ceiba pentandra,
..... Click the link for more information. ; or long fibers, including flaxflax,
common name for members of the Linaceae, a family of annual herbs, especially members of the genus Linum, and for the fiber obtained from such plants. The flax of commerce (several varieties of L.
..... Click the link for more information. , hemphemp,
common name for a tall annual herb (Cannabis sativa) of the family Cannabinaceae, native to Asia but now widespread because of its formerly large-scale cultivation for the bast fiber (also called hemp) and for the drugs it yields.
..... Click the link for more information. , Manila hempManila hemp,
the most important of the cordage fibers. It is obtained chiefly from the Manila hemp plant (Musa textilis) of the family Musaceae (banana family). It is grown mainly in its native Philippine Islands, where it has been cultivated since the 16th cent.
..... Click the link for more information. , istle, ramie, sisal hempsisal hemp
[from Sisal, former chief port of Yucatan], important cordage fiber obtained from the leaves of the sisal hemp plant, an extensively cultivated tropical agave (family Agavaceae or Liliaceae).
..... Click the link for more information. , and Spanish mossSpanish moss,
fibrous grayish-green epiphyte (Tillandsia usneoides) that hangs on trees of tropical America and the Southern states, also called Florida, southern, or long moss. It is not a true moss but a member of the pineapple family, and has inconspicuous flowers.
..... Click the link for more information. . The chief natural inorganic fiber is asbestosasbestos,
common name for any of a variety of silicate minerals within the amphibole and serpentine groups that are fibrous in structure and more or less resistant to acid and fire.
..... Click the link for more information. . Fibers are also derived from other inorganic substances that can be drawn into threads, e.g., metals (especially gold and silver). Artificial fibers can be produced either by the synthesis of polymers (nylonnylon,
synthetic thermoplastic material characterized by strength, elasticity, resistance to abrasion and chemicals, low moisture absorbency, and capacity to be permanently set by heat. After 10 years of research E. I.
..... Click the link for more information. ) or by the alteration of natural fibers (rayonrayon,
synthetic fibers made from cellulose or textiles woven from such fibers; more rayon is manufactured than any other synthetic fiber. The name was adopted (1924), in preference to "artificial silk," by the U.S. Dept. of Commerce and various commercial associations.
..... Click the link for more information. ).
Fibers are classified according to use as textile, cordage, brush, felt, filling, and plaiting fibers. The largest volume is used for textiles and cordage. The chief textile fibers used for clothing and domestic goods are cotton, wool, rayon, nylon, flax, and silk. Coarse-textured fibers (principally jute) are used for burlap, floor covering, sacks, and bagging materials. Cordage fibers include most of the long vegetable fibers and cotton. Brush fibers include istle, sisal, broomcorn, palmyra, and animal hairs. The chief felt fibers are rabbit and beaver hair. Filling fibers include horsehair, wool flock, kapok, cotton, and Spanish moss. Plaiting fibers are used for braided articles (e.g., hats, mats, and baskets) and include Manila hemp, sisal, rushes, and grasses.
Flax, hemp, and wool have been used extensively from remote times; cotton, however, became the leading commercial fiber c.1800. The demand for fibers was greatly increased by the invention of spinning and weaving machinery during the Industrial Revolution. The artificial fibers (see synthetic textile fiberssynthetic textile fibers
have revolutionized the textile industry. Such artificial fibers are usually long-chain polymers, produced industrially by the condensation of many small units.
..... Click the link for more information. ) have rapidly grown in diversity and extent of use since the development of rayon in 1884.
fiber optics glossaryThe following terms were defined with the assistance of Panduit Corporation, a leading manufacturer of wiring and network cabling products (www.panduit.com) and Jeff Hecht, noted optical networking consultant and author.
A mechanical device designed to align fiber-optic connectors. It contains the split sleeve (interconnect sleeve) that holds the two ferrules together.
A mechanical fixture within the adapter body that aligns and holds two terminated fiber connectors. Adapter sleeve material is typically phosphor bronze, ceramic or polymer.
The absorbing of light energy within an optical fiber due to natural impurities in the glass. Absorption and scattering are the main cause of attenuation (signal loss) in an optical fiber.
The angle at which the core of the fiber will take in light. See numerical aperture.
A device that includes or removes one or more optical channels to a signal passing through it. See add/drop multiplexer.
An ingredient in optical fiber cable that provides support, protection and tensile strength. Also referred to as KEVLAR, which is a brand of aramid yarn.
ATM (asynchronous transfer mode)
A network technology that switches optical and electronic signals that are broken into 53-byte cells (see ATM).
The loss of signal strength (optical power) during transmission between two points. It expresses the total loss of an optical system, measured in decibels per kilometer (dB/km) at specific wavelengths. See "intrinsic loss" and "extrinsic loss" in this glossary.
The center of an optical fiber.
The interbuilding and intrabuilding cable connections between entrance facilities, equipment rooms and the telecommunications closets. It consists of the transmission media, main and intermediate cross-connects and terminations at these locations.
The information-carrying capacity of an optical fiber. It is measured in MHz-km and GHz-km, as distance plays an important role.
A property of a material that causes the polarizations of light to travel at different speeds.
A distribution of light that is caused by a change in the refractive index of a material. See fiber Bragg grating.
The protective layer that surrounds the fiber cladding. Fabrication techniques include tight or loose tube buffering.
An optical fiber cable that has connectors installed on one or both ends. See "pigtail" and "patch cord" in this glossary.
A range of wavelengths from 1530 to 1565 nm. In this region, erbium-doped amplifiers (EDFAs) have highest gain. See EDFA and optical bands.
A pulse in which the wavelength changes during the duration of the pulse. See chirped pulse.
The amount of bandwidth allotted to each channel. See channel spacing.
The spreading of light pulses caused by the difference in refractive indices at different wavelengths. See dispersion.
The material surrounding the core of an optical fiber. The cladding has a lower refractive index (faster speed) in order to keep the light in the core. The cladding and core make up an optical waveguide.
The process of scoring and breaking the optical fiber end in order to terminate a connector.
coarse WDM (CWDM)
A WDM technology that spaces wavelengths widely apart. See CWDM.
A protective layer applied over the fiber cladding during the drawing process to protect it from the environment.
A mechanical device used on a fiber to provide a means for aligning, attaching and decoupling the fiber to a transmitter, receiver or other fiber. Commonly used connections include 568SC (Duplex SC), ST, FDDI, FC, D4 and Biconic.
The central region of an optical fiber through which light is transmitted. It has a higher refractive index (slower speed) than the surrounding cladding.
A device that combines two or more fiber inputs into one fiber output or divides one fiber input into two or more fiber outputs. See "directional coupler" in this glossary.
The transferring of light going into and coming out of a fiber. This term does not imply that a coupler is used.
The maximum angle from the axis at which light can be confined within the core. See critical angle.
The shortest wavelength at which a singlemode fiber transmits only one mode. At shorter wavelengths, it transmits two or more modes.
Fiber lines that are supplied without any electronic or optical signaling equipment in its path.
dBm (decibels milliwatt)
A measurement of decibels (dB) at one milliwatt.
dBµ (decibels microwatt)
A measurement of decibels (dB) at one microwatt.
A unit of measure used to express the relative strength of a signal.
A material such as a glass fiber, which is not metallic and is not conductive.
See "laser diode" in this glossary or see laser diode.
The bending of light rays as they pass around corners or through holes smaller than their own wavelengths.
A series of scored lines that separates light into its various colors. See fiber Bragg grating.
A coupler in which light is transmitted differently depending on the direction of transmission. See "coupler" in this glossary.
The spreading or broadening of light pulses as they travel through a fiber. The fiber property that causes this effect is also called dispersion. The three principal types are modal dispersion, chromatic dispersion and polarization mode dispersion. See dispersion.
Reducing dispersion in a fiber in order to reduce total dispersion. Different methods are used for chromatic dispersion and polarization mode dispersion.
An optical fiber that has lower chromatic dispersion in the 1550 nm range. See dispersion-shifted fiber.
A two-fiber cable used for bi-directional transmission.
DWDM (dense WDM)
Another term for closely spaced WDM. DWDM and WDM are used synonymously.
EDFA (erbium-doped fiber amplifier)
An optical amplifier that boosts all channels in the optical signal at the same time. See EDFA.
EDWA (erbium-doped waveguide amplifier)
An optical amplifier similar to an EDFA, but derives a higher gain through a small waveguide rather than several meters of fiber.
A semiconductor diode that modulates light from a separate laser, but that may be fabricated on the same wafer. Turning current on causes light absorption.
EMI (electromagnetic interference)
The interference in signal transmission or reception resulting from radiation of electrical or magnetic fields. Optical fibers are not susceptible to EMI.
A cabinet used to organize and enclose cable terminations and splices for use within main equipment rooms, entrance facilities, main or intermediate cross-connects and telecommunications closets.
A thermosetting resin used to secure the fiber with the connector ferrule.
A passive filter that uses a Fabry-Perot cavity. See Fabry-Perot.
The light that passes into the cladding from the core.
The loss that is induced in an optical transmission system by an external source. In a fiber-optic link, this can be caused by improper alignment of connectors or splices.
A cavity with mirrors at opposite ends. It is a foundation component of certain lasers and passive filters. See Fabry-Perot.
The rigid prong in a fiber-optic plug that aligns the fiber with the socket. Ferrule materials are ceramic, plastic and stainless steel.
A thin filament of glass or plastic consisting of a core (inner region) and a cladding (outer region) and a protective coating.
fiber Bragg grating
A series of periodically spaced zones in a short length of fiber with a higher refractive index used to filter out wavelengths. See fiber Bragg grating.
An alternate way of building a laser. The laser is built into the fiber itself.
Information transmitted through optical fibers in the form of light.
The joining of two fiber ends by applying enough heat to fuse or melt the ends together to form a continuous single fiber.
A multimode fiber designed to compensate for modal dispersion by allowing light to travel increasingly faster from the center of the core to its outer edge. See graded-index fiber.
index of refraction
See "refractive index" in this glossary or refractive index.
A range of light from approximately 700 to 1000 nm. Fiber-optic systems transmit between 700 and 1700 nm.
injection loss, insertion loss
The amount of light that leaks out or is otherwise lost after being inserted into a fiber either from a light source or another fiber.
The combination of light waves in which the wave amplitudes add together. Constructive interference produces bright light when the peaks are in phase with each other. Destructive interference produces dark zones when the peaks of one wave align with the valley of the second.
The loss due to inherent traits within the fiber; for example, absorption (light energy is absorbed in the glass) and splice loss (mismatched numerical aperture).
A range of wavelengths from 1565 to 1625 nm. In this region, erbium-doped amplifiers (EDFAs) can be used, but have less gain than in C band. See EDFA and optical bands.
A device that generates a coherent beam of light all in phase and of a single (or nearly single) wavelength. A cavity with mirrors at each end causes a chain reaction that stimulates the emission of photons. See laser.
A laser made of semiconductor materials widely used to transmit light into optical fibers. It is always used for singlemode fiber and certain high-bandwidth multimode fiber such as used with Gigabit Ethernet.
LED (light emitting diode)
A device that produces light with a wide range of wavelengths. LEDs are typically used with lower-bandwidth multimode fiber.
The protective tube surrounding one or more fibers. This is usually found in cables used for outdoor installations.
The loss due to large scale bending (extrinsic loss). Bending causes imperfect guiding of light which will exceed the critical angle of reflection. Macrobending loss can be reversed once the bend is corrected.
Joining two fiber ends together by a temporary or permanent mechanical method in order to maintain continuous signal transmission.
MEMS (microelectromechanical systems)
Tiny components etched from a semiconductor material that can move under the control of electronic signals. MEMS devices include movable mirrors that can switch or redirect the path of light.
The loss of light due to small distortions in the fiber, not usually visible to the naked eye.
One micrometer or one millionth of a meter. Used to express the geometric dimension of fibers.
The spreading of light pulses along the length of the fiber caused by differential optical paths taken in multimode fiber. See dispersion.
A reflective path that the light takes in a fiber. Each mode has its own pattern of electromagnetic fields as it propagates through the fiber. There is only one mode in singlemode fiber. In multimode fiber, multiple modes are generated, causing pulse dispersion at the receiving end. See dispersion.
mode field diameter
In singlemode fiber, the diameter of the zone where the single mode propagates down the center of the fiber. It is slightly larger than the core diameter.
An optical fiber in which light travels in multiple modes. Multimode fiber is used in shorter-distance applications than singlemode fiber. See multimode fiber, graded-index fiber and step-index fiber.
Combining two or more signals into a single bit stream that can be individually recovered.
One billionth of a meter.
numerical aperture (NA)
See "acceptance angle" in this glossary.
OC-1, OC-3, OC-12, OC-48, OC-192, OC-786
An optical carrier rate in the SONET hierarchy. See OC.
OEO (Optical Electrical Optical)
Devices that convert light back to electricity for manipulation and then back out to light. Contrast with OOO.
OFNR (Optical Fiber Non-conductive Riser)
A type of fiber-optic cable.
OFNP (Optical Fiber Non-conductive Plenum)
A type of fiber-optic cable.
OOO (Optical Optical Optical)
Devices that maintain the transmission signal as light throughout. Contrast with OEO.
A device that boosts signals in an optical fiber. The EDFA was the first successful optical amplifier. See EDFA.
A signal transmitted at one wavelength in a fiber-optic system.
A network that processes and switches signals in optical form.
A device that routes optical signals to their appropriate destination. All-optical switches (OOO) do not have to convert light back to electricity for processing. See optical switch.
An optical fiber, planar waveguide or other structure that guides light along its length.
OTDR (Optical Time Domain Reflectometer)
An instrument that measures optical transmission characteristics by sending a short pulse of light down a fiber and observing backscattered light. Used to measure fiber attenuation and evaluate optical transmission at splices and connectors.
passive optical network
A fiber-optic system with no active components between its distribution point and remote receiver nodes.
A device that receives optical power and changes it to electrical power. See photoelectric.
PC (Physical Contacting)
A type of fiber-optic connector that causes two terminated fiber ends to contact each other, keeping signal losses to a minimum.
A specific length of optical fiber cable with terminated connectors on each end. Used for connecting patch panels or optoelectronic devices.
A particle of light.
Having to do with light or photons.
A short length of fiber in which one end is attached to a component and the other is free to be spliced to another fiber.
A flat waveguide on the surface of a substrate with a lower refractive index. It confines light similar to an optical fiber. Used in waveguide arrays.
The alignment of the perpendicular electrical and magnetic fields that make up a light wave.
polarization mode dispersion
The dispersion that arises from slight asymmetries in optical fibers. The speed of light varies with polarization.
Also known as lapping film, it is a paper with a fine grit used to remove any imperfections in the fiber end surface that may exist after cleaving. Fiber ends terminated within a connector are polished flush with the end of the ferrule.
A device used to hold the connector during the polishing of the fiber.
The state of atoms that have been excited. See population inversion.
A device that boosts the signal in an optical fiber by transferring energy from a powerful pump beam to a weaker signal beam. See Raman amplifier.
An optoelectronic device that converts optical signals into electrical signals.
The process that occurs when a light ray traveling in one material hits a different material and reflects back into the original material without loss of light. See refractive index.
The bending of light rays as they pass through a transmission medium of one refractive index into a medium with a different refractive index. See refractive index.
The ratio of the velocity of light in a vacuum to the velocity of light in a specific material. Using 1.0 as the base reference, the higher the number, the slower light travels. See refractive index.
A transceiver that converts optical signals to electronic and back out to optical.
A pathway for indoor cables that pass between floors.
A range of wavelengths from 1460 to 1530 nm. See optical bands.
A property of glass that causes light to deflect from the fiber and contribute to losses (intrinsic attenuation).
SDH (Synchronous Digital Hierarchy)
A scale of standard data rates for fiber-optic systems defined by the ITU. See SONET.
An optical fiber in which the signal travels in one mode (path). It typically has an 8-10 µm core within a 125 µm cladding. See singlemode fiber.
A laser pulse that retains its shape in a fiber over long distances. See soliton.
SONET (Synchronous Optical Network)
A scale of standard data rates for fiber-optic systems used in North American systems. See SONET.
A method for joining two optical fiber ends. Fusion splicing and mechanical splicing are the two types.
A container used to hold and protect splice trays.
A container used to hold, organize and protect spliced fibers.
The part of a fiber-optic adapter that aligns the ferrules of two terminated connectors.
A device that takes the light from one fiber and injects it into the cores of several other fibers.
A fiber in which the core and cladding each have a uniform, but different, refractive index. See step-index fiber.
The mimimum current required to cause a diode laser to generate a beam of light.
A protective coating (typically 900 µm) that is extruded directly over the primary coating of fibers. Provides high tensile strength, durability, ease of handling and termination.
A transmitter and receiver combined in one device.
An optoelectronic device that converts an electrical signal to an optical signal. It is usually an LED or laser diode.
A fiber-optic network that is entirely light based with optical switches and other optical-only devices.
A laser that can change its frequency over a given range.
VCSEL (vertical cavity surface-emitting laser)
Pronounced "vixel." A semiconductor laser that emits a beam from its surface rather than its edge. See VCSEL.
VOA (variable optical attenuator)
A device that can be adjusted to block different fractions of light passing through it.
A structure that guides electromagnetic waves. An optical fiber is an optical waveguide.
A device that separates wavelengths by passing them through an array of curved waveguides running between a pair of mixing regions.
The length of a wave measured from any point on one wave to the corresponding point on the next. The wavelengths of light used in optical fibers are measured in nanometers. Common wavelengths are 850, 1300 and 1350 nm.
WDM (wavelength division multiplexing)
Transmitting several wavelengths of light (colors) in one fiber. See WDM.
End of Fiber Optics Glossary
optical fiberA thin glass strand designed for light transmission. A single hair-thin fiber is capable of transmitting trillions of bits per second. In addition to their huge transmission capacity, optical fibers offer many advantages over electricity and copper wire. Light pulses are not affected by random radiation in the environment, and their error rate is significantly lower. Fibers allow longer distances to be spanned before the signal has to be regenerated by expensive "repeaters." Fibers are more secure, because taps in the line can be detected, and lastly, fiber installation is streamlined due to its dramatically lower weight and smaller size compared to copper cables.
Starting in the 1970s
In the late 1970s and early 1980s, telephone companies began to use fibers extensively to rebuild their communications infrastructure. According to KMI Corporation, specialists in fiber optic market research, by the end of 1990 there were approximately eight million miles of fiber laid in the U.S. (this is miles of fiber, not miles of cable which can contain many fibers). By the end of 2000, there were 80 million miles in the U.S. and 225 million worldwide. Fiber is also used to replace copper cable for LAN backbones.
An optical fiber is constructed of a transparent core made of nearly pure silicon dioxide (SiO2), through which the light travels. The core is surrounded by a cladding layer that reflects light, guiding the light along the core. A plastic coating covers the cladding to protect the glass surface. Cables also include fibers of Kevlar and/or steel wires for strength and an outer sheath of plastic or Teflon for protection.
For glass fibers, there are two "optical windows" where the fiber is most transparent and efficient. The centers of these windows are 1300 nm and 1550 nm, providing approximately 18,000 GHz and 12,000 GHz respectively, for a total of 30,000 GHz. This enormous bandwidth is potentially usable in one fiber. The only limitation is the electronic circuits that modulate the light waves to represent the data. Electronic ciruits have yet to come close to the frequencies of light.
Singlemode and Multimode
There are two types of glass fiber. For intercity cabling and highest speed, singlemode fiber with a core diameter of less than 10 microns is used. Multimode fiber is very common for short distances and has a core diameter from 50 to 100 microns.
Plastic Fiber Too
For short-distance runs such as within buildings, plastic fiber is also used, and their transparent windows are typically 650 nm or within the 750-900 nm range. Plastic optical fiber (POF) is easier to install than glass but requires repeaters for distances greater than 100 meters. See laser, WDM, fiber optics glossary and cable categories.
|The fibers in this picture are being prepared for splicing in a wiring closet. These few strands can collectively transmit trillions of bits per second. (Image courtesy of Corning Incorporated.)|
|Fiber vs. Copper|
|Not only does optical fiber offer enormous bandwidth, but it takes a lot less room. Any one of these copper bundles can be replaced with one fiber strand (center). (Image courtesy of Corning Incorporated.)|
|This Lucent fiber-optic cable holds 288 fibers, which was a record-high fiber count in 1996. Cables with more than a thousand fibers have since been developed.|
|Laying Optical Fiber|
|Embedding thousands of miles of fiber in the ground has been a Herculean feat undertaken by many companies. In time, all copper wires are expected to give way to fiber. (Image courtesy of Metromedia Fiber Network.)|