Fiber Optic Essentials

Chapter 12.8 - Fiber Optic Components: Thin-Film Devices

One very common thin-film device is the wavelength multiplexer or demultiplexer.
This is based on interference occurring due to multiple reflections. Figure 12.22
shows a device called a Fabry–Perot interferometer, which consists of a pair of
highly reflecting mirrors placed parallel to each other. When light is incident on this
device, each mirror reflects a major fraction of this light, and light bounces back and
forth between the pair of mirrors.Wavelengths satisfying the following condition get
transmitted completely (assuming no other loss mechanism) through the device:

 

Here n represents the refractive index of the medium between the two mirrors and d is
the spacing between the mirrors. If the mirror reflectivities are high, the transmission
maxima are very sharp, and any deviation from thewavelengths specified by Eq. (12.7)
leads to almost no transmission, and all those wavelengths are almost completely
reflected back.

Such an effect is used to build wavelength filters. Figure 12.23 shows a wavelength
filter with multiple-layer coatings. The series of multiple layers of alternate dielectric
media of low and high refractive indices act as high-reflectivity mirrors, and this
leads to a wavelength filtering effect. Fiber Bragg gratings (Chapter 11) use the same
effect to reflect strongly at desired wavelengths. Figure 12.24 shows how such a

FIGURE 12.22 When light falls on a pair of parallel high-reflectivity mirrors, only certain wavelengths satisfying Eq. (12.7) get transmitted, other wavelengths get reflected almost completely.


FIGURE 12.23 Realization of high-reflectivity mirrors using multiple coatings of dielectrics of different refractive indices.

device can be configured to make wavelength multiplexers and demultiplexers. Such
devices, which are available commercially for low channel counts have insertion
losses between 1 and 5 dB, an adjacent channel isolation better than 25 dB, and a
directivity better than 45 dB. They are also made to be thermally very stable by proper
packaging.

FIGURE 12.24 Using the interference effect, it is possible to realize wavelength multiplexers and demultiplexers.

 

UNLIMITED FREE
ACCESS
TO THE WORLD'S BEST IDEAS

SUBMIT
Already a GlobalSpec user? Log in.

This is embarrasing...

An error occurred while processing the form. Please try again in a few minutes.

Customize Your GlobalSpec Experience

Category: Optical Linear Encoders
Finish!
Privacy Policy

This is embarrasing...

An error occurred while processing the form. Please try again in a few minutes.