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However, all rays do not interfere constructively for this situation, and so the maximum is not as intense as the central maximum. Most rays from the slit will have another to interfere with constructively, and a maximum in intensity will occur at this angle. Two rays, each from slightly above those two, will also add constructively. One ray travels a distance λ different from the ray from the bottom and arrives in phase, interfering constructively. In fact the central maximum is six times higher than shown here.Īt the larger angle shown in Figure 2c, the path lengths differ by 3λ/2 for rays from the top and bottom of the slit. A graph of single slit diffraction intensity showing the central maximum to be wider and much more intense than those to the sides. There will be another minimum at the same angle to the right of the incident direction of the light.įigure 3. In fact, each ray from the slit will have another to interfere destructively, and a minimum in intensity will occur at this angle. A ray from slightly above the center and one from slightly above the bottom will also cancel one another. Thus a ray from the center travels a distance λ/2 farther than the one on the left, arrives out of phase, and interferes destructively. In Figure 2b, the ray from the bottom travels a distance of one wavelength λ farther than the ray from the top. However, when rays travel at an angle θ relative to the original direction of the beam, each travels a different distance to a common location, and they can arrive in or out of phase. When they travel straight ahead, as in Figure 2a, they remain in phase, and a central maximum is obtained. (Each ray is perpendicular to the wavefront of a wavelet.) Assuming the screen is very far away compared with the size of the slit, rays heading toward a common destination are nearly parallel. These are like rays that start out in phase and head in all directions. According to Huygens’s principle, every part of the wavefront in the slit emits wavelets. Here we consider light coming from different parts of the same slit. The analysis of single slit diffraction is illustrated in Figure 2. In contrast, a diffraction grating produces evenly spaced lines that dim slowly on either side of center. Note that the central maximum is larger than those on either side, and that the intensity decreases rapidly on either side. Figure 1 shows a single slit diffraction pattern. Light passing through a single slit forms a diffraction pattern somewhat different from those formed by double slits or diffraction gratings. (b) The drawing shows the bright central maximum and dimmer and thinner maxima on either side. The central maximum is six times higher than shown. Monochromatic light passing through a single slit has a central maximum and many smaller and dimmer maxima on either side.