This article was written by Joni Nurmi ,Zhen Shi and Sun Hai

[1] Source of the figure: http://fiberoptic101.blogspot.fi/2010/11/history-of-fiber-optic.html

Principle of operation

Fiber optical cables are highly transparent, cylindrical conduits for light. These cables are formed of two materials with different refractive indices. This creates a optimal waveguide for transmitting light. When light enters the fiber made of material with higher refractive index than the cladding surrounding it, it stays inside the material due to total internal reflection and is thus transmitted forward.

Index of refraction

Index of refraction is a measurement of speed of light in material. By definition, vacuum has refractive index of 1(c in vacuum = 1). The higher the index, the slower the light will travel in the material. Typical value for fiber core is 1,62 and for the cladding 1,52.

Total internal refraction:

When light travelling inside material hits a boundary, it is partially refracted and partially reflected. However if the angle is greater than the critical angle of the materials them it is reflected back in its entirety. For this to occur the material in which the light is travelling in must have higher refractive index than the material outside.

Multi-mode fiber

In optical fiber technology, multimode fiber is optical fiber that is designed to carry multiple light rays or modes concurrently, each at a slightly different reflection angle within the optical fiber core. Multimode fiber transmission is used for relatively short distances because the modes tend to disperse over longer lengths.

Multi-Mode cable has a little bit bigger diameter, with a common diameters in the 50-to-100 micron range for the light carry component (in the US the most common size is 62.5um). Most applications in which Multi-mode fiber is used, 2 fibers are used (WDM is not normally used on multi-mode fiber).  POF is a newer plastic-based cable which promises performance similar to glass cable on very short runs, but at a lower cost.

Multimode fiber gives you high bandwidth at high speeds (10 to 100MBS - Gigabit to 275m to 2km) over medium distances. Light waves are dispersed into numerous paths, or modes, as they travel through the cable's core typically 850 or 1300nm. Typical multimode fiber core diameters are 50, 62.5, and 100 micrometers. However, in long cable runs (greater than 3000 feet 914.4 meters), multiple paths of light can cause signal distortion at the receiving end, resulting in an unclear and incomplete data transmission so designers now call for single mode fiber in new applications using Gigabit and beyond.  

Single-mode fiber

In [optical fiber|http://searchtelecom.techtarget.com/definition/optical-fiber] technology, single mode fiber is optical fiber that is designed for the transmission of a single ray or mode of light as a carrier and is used for long-distance signal transmission.

Single Mode cable is a single stand (most applications use 2 fibers) of glass fiber with a diameter of 8.3 to 10 microns that has one mode of transmission.  Single Mode Fiber with a relatively narrow diameter, through which only one mode will propagate typically 1310 or 1550nm. Carries higher bandwidth than multimode fiber, but requires a light source with a narrow spectral width.

Single Modem fiber is used in many applications where data is sent at multi-frequency (WDM Wave-Division-Multiplexing) so only one cable is needed - (single-mode on one single fiber)

Single-mode fiber gives you a higher transmission rate and up to 50 times more distance than multimode, but it also costs more. Single-mode fiber has a much smaller core than multimode. The small core and single light-wave virtually eliminate any distortion that could result from overlapping light pulses, providing the least signal attenuation and the highest transmission speeds of any fiber cable type.   

Single-mode optical fiber is an optical fiber in which only the lowest order bound mode can propagate at the wavelength of interest typically 1300 to 1320nm.

Comparison of single-mode fiber and muti-mode fiber

Constructions are different

[2] Source of the figure: http://www.rp-photonics.com/multimode_fibers.html

Transmissions are different

[3] Source of the figure: http://www.arcelect.com/fibercable.htm

Special-purpose fiber: Polarization - maintaining fibers

What is polarization-maintaining fibers? 

Polarization-maintaining fibers is a special purpose single mode fiber, it preserves and transmits the polarization state of light that is launched into it. 

Why do we need the polarization-maintaining fibers?

The reason why we need to have polarization-maintaining fibers is that regular single mode fiber cannot maintain the polarization state of input laser beam. Because in a regular single mode fiber, the input polarized laser beam (consist of two perpendicular polarized modes - horizontal and vertical) have the same propagation constant (propagation constant is a measure of the change undergone by the amplitude of the wave as it propagates in a given direction), in other words they both travel at the same velocity (not good). It would cause optical energy from one of these modes (horizontal or vertical mode) to transfer the other or “cross-couple”.  That is the reason why single mode fiber cannot maintain the polarization state of input laser beam. 

How does polarization-maintaining fibers work?

Then the polarization-maintaining fibers was invented to overcome this problem. The polarization-maintaining fibers are designed in such a way that two perpendicular polarized modes are forced to travel at different propagation constants, which means they travel at different velocity. This difference in velocities makes it very hard for optical energy to transfer between each other. As the result that polarization state of input laser beam is preserved.  This special purpose fiber is commonly used in fiber optic sensing, interferometry and slab dielectric waveguides. 

Cross Section of Polarization Maintaining Fibers

Figure. 4. Cross Section of Polarization Maintaining Fibers [4]

The above three pictures illustrated the three different types of polarization maintaining fibers, which are Panda, Elliptical-clad, Bow-tie. There fibers contain a unique feature; they have stress rods in fibers (a feature not seen in other fiber types). The stress rods are two circles in the Panda PM fiber, a elliptical clad in elliptical-clad PM fiber and two bow-ties in the Bow-Tie type PM fiber. The most important property of stress rods is that it creates stress in the core of the fiber such that the transmission of only one polarization plane of light is favored.

YouTube video - A Brief Introduction of the Polarization-maintaining Fibers

Video.1. A Brief Introduction of the Polarization-maintaining Fibers [5]

References: 

Principle of operation - Special purpose fiber                        - http://en.wikipedia.org/wiki/Optical_fiber

[2]Multimode fibers                                                                - http://www.rp-photonics.com/multimode_fibers.html

[3]The basic of fiber optic cable (single mode and multi mode)  - http://www.arcelect.com/fibercable.htm/

[4] What Are Polarization Maintaining Fibers?                      - http://www.fiberoptics4sale.com/wordpress/what-are-polarization-maintaining-fibers/

[5] What is Polarization Maintaining Fiber?                          - http://www.youtube.com/watch?v=7rrb-_Iin-g