Optoelectronic Semiconductor Devices Principals and Characteristics
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Optoelectronic Semiconductor Devices-Principals an
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- 2.2 SEMICONDUCTOR MATERIALS FOR DIODE LASERS
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Table 1.: Recombination coefficients for several semiconductors.
[6] Material Band-gap type B rec in cm 3 /s Si Indirect 1.79·10 -15 Ge Indirect 5.25·10 -15 GaP Indirect 5.37·10 -14 InSb Direct 4.58·10 -11 InAs Direct 8.5·10 -11 GaSb Direct 2.39·10 -10 GaAs Direct 7.21·10 -10 Each elemental and binary semiconductor has a specific band-gap at a given temperature. If the choice of semiconductors were restricted to elemental and binary semiconductors (Binary semiconductors - compounds made from the elements of two different groups of the periodic table (For example: III and V, II and IV, etc.)) only, then the available wavelengths would be rather limited. But as we know, light is emitted by solid solutions of semiconductors as well. By mixing two or more binary semiconductors, we can create ternary or quaternary crystalline solid solutions. The energy band- gap, refractive index, and lattice constant of such solid solutions can be adjusted by varying the composition of the contributing materials and the growth conditions of the solutions. 2.2 SEMICONDUCTOR MATERIALS FOR DIODE LASERS The successful fabrication of a diode laser relies very heavily upon the properties of the materials involved. There is very limited set of semiconductors that possess all of the necessary properties to make a good laser. For the desired DH (double heterostructure) at least two compatible materials must be found, one for the cladding layers and another for the active region. In more complex geometries, three or four different band-gaps may be required within the same structure. The fundamental requirement for these different materials is that they have the same crystal structure and nearly the same lattice constant (Lattice Constant - a length that denotes the size of the unit cell in a crystall lattice. With respect to the cubic crystal, this is the length of the side of the unit cell. However, a simple definition of the term is difficult, and the lattice constant must be considered with the geometry of the structure in each case.), so that single-crystal, defect-free films of one can be epitaxially grown on the other. We need to understand how to select materials that meet these fundamental boundary conditions. Download 1.1 Mb. Do'stlaringiz bilan baham: 
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