Introduction to Fiber Optic Communication

ECC3601:
OPTICAL COMMUNICATION
Lecture 3: Introduction to Fiber Optic and Light
Propagation
Makhfudzah bt. Mokhtar, PhD.
Department of Computer and Communication Systems
Faculty of Engineering
University Putra Malaysia

LEARNING OUTCOMES
At the end of this lecture, students should be able to:

-Describe ‘optical waveguide’
-Explain basic characteristics of fiber optic.

What is Optical Waveguide?
An optical

waveguide is a physical structure that
guides electromagnetic waves

in the optical

spectrum.

Common types of optical waveguides include optical fiber and
rectangular waveguides.
Optical waveguides are used as components in integrated optical
circuits or as the transmission medium in local and long haul optical
communication systems.
Optical waveguides can be classified according to their geometry
(planar, strip, or fiber waveguides), mode structure (singlemode, multi-mode), refractive index distribution (step or gradient
index) and material (glass, polymer, semiconductor).
Optical waveguide
From Wikipedia, the free encyclopedia

Optical waveguide: geometry

Conceptual diagram of light propagating from an optical fiber waveguide to a
rectangular optical waveguide
Optical waveguide
https://www.ntt-review.jp/archive/ntttechnical.php?contents=ntr201002sf2.html

Optical waveguide: geometry

Light can be guided by planar or rectangular wave guides, or by optical fibers.

Optical waveguide
http://electron6.phys.utk.edu/optics421/modules/m8/Optical%20Wave%20Guides.htm

Optical fiber: structure

Chapter 24: Fiber Optics
Copyright © Delmar Thomson Learning

Optical fiber: structure
Fiber Optic Core:
The inner light-carrying layer with a high index of refraction.
Cladding:
The middle layer, which serves to confine the light to the core. It has
a lower refraction index than the core.
Jacket:
The outer layer, which serves as a "shock absorber" to protect the
core and cladding from damage. The coating usually comprises one
or more coats of a plastic material to protect the fiber from the
physical environment. Sometimes metallic sheaths are added to the
coating for further physical protection.

Optical waveguide

How does light propagate along
the fiber?
See video ‘Fiber optic cables-how they work’

Light refraction

Optical Image: Physics behind the Scenes
http://www.osa-univer.org.ua/prj_gallery06.phtml

Light refraction and reflection
* Refraction is the

change in direction of a wave due to a
change in its medium.

* Total internal reflection is a phenomenon that happens when a
propagating wave strikes a medium boundary at an angle larger than

a particular critical angle with respect to the normal to the surface.
Optical waveguide
From Wikipedia, the free encyclopedia

Light refraction and reflection

Optical Communication: Slide
Prof. Dr. Mohd. Adzir Mahdi

Optical fiber: modes
Based on modes, fiber can be divided into :
i) SINGLE MODE FIBER (SMF) and ii) MULTI MODE FIBER (MMF)

* Single mode fiber is an optical

fiber that carries only

a single ray of light (mode).
* Multi mode fiber is an

optical fiber that carries 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 (this is called modal dispersion) . For
longer distances, single mode fiber (sometimes called monomode) fiber is used.
Multimode fiber has a larger core than single mode.

Single mode fiber | multi mode fiber
Wikipedia | http://searchnetworking.techtarget.com/definition/multimode-fiber

How dispersion exist in multi-mode fiber
Multimode step-index fibers trap light with many different entrance angles.
•Each mode in a step-index multimode fiber is associated with a different
entrance angle.
•Each mode therefore travels along a different path through the fiber. Different
propagating modes have different velocities.
•As an optical pulse travels down a multimode fiber, the pulse begins to
spread. Pulses that enter well separated from each other will eventually
overlap each other.

This limits the distance over which the fiber can transport data. Multimode stepindex fibers are not well suited for data transport and communications.
Optical waveguide


Light emerging from a multi-mode fiber

Light emerging from a single-mode fiber

Optical waveguide

Optical fiber: gradient
• Both types of fiber described earlier are known as step-index fibers
because the index of refraction changes radically between the core and
the cladding
• Graded-index fiber is a compromise multimode fiber, but the index of
refraction gradually decreases away from the center of the core
• Graded-index fiber has less dispersion than a multimode step-index fiber

Step-index fiber

Graded-index fiber

Chapter 24: Fiber Optics
Copyright © Delmar Thomson Learning

Preparation for Quiz 1
-Revise Lecture 2 slide

Introduction to Fiber Optic Communication

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