3 LASER DIODES
Laser
diodes are typical pn-junction devices used under a forward bias. Laser is an acronym for Light
Amplification by Stimulated Emission of Radiation.
The basic operating mechanism of laser diodes are based on the electrical and optical properties of
pn-
junctions and semiconductor materials.
Laser diodes are devices emitting coherent light produced in a stimulated emission process.
The light
emission process in laser diodes is more complicated then that in LEDs, where light produced in a
spontaneous emission process.
The lasing wavelength ranges from the visible to the infrared wavelength range
depending on the material
of the active layer.
The 850 nm-band AlGaAs/GaAs and 1300/1550 nm-band InGaAs(P)/InP material systems are commonly
used in optical fiber communication systems, Whereas AlGaAs/AlGaAs,
group-III nitrides, and other
materials are used in the visible wavelength range.
On the developmental stage of laser diodes, continuous-wave (cw) lasing
at room temperature was
achieved in an AlGaAs/GaAs double-heterostructure laser in 1970, and since then the double
heterostructure has been a common one for laser diodes.
3.1 BROAD AREA LASERS
Broad area lasers are injection lasers of the most rudimentary form.
Figure 12.: Geometry of broad area injection lasers and stripe geometry injection lasers.
[1]
Since the width is
much larger than the thickness, (as we can see on Figure
12.
) we can assume that the
optical fields and injection current are
distributed uniformly in the y direction and many transverse modes
can be supported by the structure, if they are not suppressed.
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