Characteristics of Reflective Materials

Figure 2-2.-Divergence of a conventional light source. Light from a conventional light source spreads rapidly, as illustrated in figure 2-2. The intensity may be large at the source, but it decreases rapidly as the distance from the source increases. In contrast, the output of the laser, shown in figure 2-3, has a very small divergence and the beam intensity at reasonable distances is almost the same as the intensity at the source. Therefore, relatively low-power lasers project more energy at a single wavelength within a narrow beam than do much more powerful con- ventional light sources. CHARACTERISTICS MATERIALS Material will either OF REFLECTIVE reflect, absorb, or transmit light rays. Reflection of light is best illustrated by a mirror. When light rays strike a mirror, almost all of the energy will be reflected. Figure 2-4 shows how a ray of light is redirected as it strikes a plastic or glass surface. The sum of the energy transmitted, absorbed, and reflected will equal the amount of energy that strikes the surface. A surface is considered to be specular if the size of the surface imperfections and variations are much smaller than the wavelength of the striking optical radiation. When the imperfections are randomly oriented and are much larger than the wavelength, the surface is considered to be diffuse. Specular Reflection A flat specular surface will not change the divergence of the striking beam of light significantly. Figure 2-3.—Divergence of a laser source. 2-2