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Diffraction Gratings.

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Presentation on theme: "Diffraction Gratings."— Presentation transcript:

1 Diffraction Gratings

2 A different grating has numerous tiny slits, equally spaced
A different grating has numerous tiny slits, equally spaced. It separates white light into its component colors just as a double slit would. When a sin = n , light of wavelength  will be reinforced at an angle of . Since different colors have different wavelengths, different colors will be reinforced at different angles, and a prism-like spectrum can be produced.

3 Diffraction Gratings Note, though, that prisms separate light via refraction rather than diffraction. The pic on the left shows red light shone through a grating. The CD acts as a diffraction grating since the tracks are very close together (about 625/mm).

4 A diffraction grating is the tool of choice for separating the colors in incident light. When there is a need to separate light of different wavelengths with high resolution, then a diffraction grating is most often the tool of choice. This "super prism" aspect of the diffraction grating leads to application for measuring atomic spectra in both laboratory instruments and telescopes.

5 When light of a single wavelength , like the 632
When light of a single wavelength , like the 632.8nm red light from a helium-neon laser at left, strikes a diffraction grating it is diffracted to each side in multiple orders. Orders 1 and 2 are shown to each side of the direct beam. Different wavelengths are diffracted at different angles, according to the grating relationship.

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