Interference at slits and diffraction gratings. Diffraction and the Wave Nature of Light Diffraction is a wave effect. That is, it occurs because light.

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Presentation transcript:

Interference at slits and diffraction gratings

Diffraction and the Wave Nature of Light Diffraction is a wave effect. That is, it occurs because light is a wave and it occurs with other types of waves as well. Diffraction can be defined rather loosely as the flaring of light as it emerges from a narrow slit. More than just flaring occurs, however, because the light produces an interference pattern called a diffraction pattern.

Diffraction from a single slit, Locating the minima: First, if we mentally divide the slit into two zones of equal widths a/2, and then consider a light ray r 1 from the top point of the top zone and a light ray r 2 from the top point of the bottom zone. For destructive interference at P 1,

Diffraction by a Double Slit: Fig (a) The intensity plot to be expected in a double-slit interference experiment with vanishingly narrow slits. (b) The intensity plot for diffraction by a typical slit of width a (not vanishingly narrow). (c) The intensity plot to be expected for two slits of width a. The curve of (b) acts as an envelope, limiting the intensity of the double- slit fringes in (a). Note that the first minima of the diffraction pattern of (b) eliminate the double-slit fringes that would occur near 12° in (c). The intensity of a double slit pattern is:

Diffraction Gratings: A diffraction grating is somewhat like the double-slit arrangement but has a much greater number N of slits, often called rulings, perhaps as many as several thousand per millimeter.

Diffraction Gratings:

Diffraction Gratings, Grating Spectroscope:

X-Ray Diffraction: Fig (a) The cubic structure of NaCl, showing the sodium and chlorine ions and a unit cell (shaded). (b) Incident x- rays undergo diffraction by the structure of (a).The x rays are diffracted as if they were reflected by a family of parallel planes, with the angle of reflection equal to the angle of incidence, both angles measured relative to the planes (not relative to a normal as in optics). (c) The path length difference between waves effectively reflected by two adjacent planes is 2d sin . Therefore, the criterion for intensity maxima for x-ray diffraction is:

Diffraction by a Circular Aperture:

Diffraction by a Circular Aperture, Resolvability: Fig At the top, the images of two point sources (stars) formed by a converging lens. At the bottom, representations of the image intensities. In (a) the angular separation of the sources is too small for them to be distinguished, in (b) they can be marginally distinguished, and in (c) they are clearly distinguished. Rayleigh’s criterion is satisfied in (b), with the central maximum of one diffraction pattern coinciding with the first minimum of the other. Two objects that are barely resolvable when the angular separation is given by:

Diffraction by a Circular Aperture, Resolvability: