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What (who) is Diffraction - definition
![[[Diffraction spikes]] are diffraction patterns caused due to non-circular [[aperture]] in camera or support struts in telescope; In normal vision, diffraction through eyelashes may produce such spikes.](https://commons.wikimedia.org/wiki/Special:FilePath/Night London Panorama with Full Moon.jpg?width=200 "[[Diffraction spikes]] are diffraction patterns caused due to non-circular [[aperture]] in camera or support struts in telescope; In normal vision, diffraction through eyelashes may produce such spikes.")
![The bright spot ([[Arago spot]]) seen in the center of the shadow of a circular obstacle is due to diffraction](https://commons.wikimedia.org/wiki/Special:FilePath/Poissonspot simulation d4mm.jpg?width=200 "The bright spot ([[Arago spot]]) seen in the center of the shadow of a circular obstacle is due to diffraction")
![Infinitely many points (three shown) along length ''d'' project phase contributions from the [[wavefront]], producing a continuously varying intensity ''θ'' on the registering plate.](https://commons.wikimedia.org/wiki/Special:FilePath/Single Slit Diffraction.svg?width=200 "Infinitely many points (three shown) along length ''d'' project phase contributions from the [[wavefront]], producing a continuously varying intensity ''θ'' on the registering plate.")
, (analogous to X-ray crystallography).JPG?width=200 "Optical diffraction pattern ( laser), (analogous to X-ray crystallography)")
Wikipedia
Diffraction is defined as the interference or bending of waves around the corners of an obstacle or through an aperture into the region of geometrical shadow of the obstacle/aperture. The diffracting object or aperture effectively becomes a secondary source of the propagating wave. Italian scientist Francesco Maria Grimaldi coined the word diffraction and was the first to record accurate observations of the phenomenon in 1660.
In classical physics, the diffraction phenomenon is described by the Huygens–Fresnel principle that treats each point in a propagating wavefront as a collection of individual spherical wavelets. The characteristic bending pattern is most pronounced when a wave from a coherent source (such as a laser) encounters a slit/aperture that is comparable in size to its wavelength, as shown in the inserted image. This is due to the addition, or interference, of different points on the wavefront (or, equivalently, each wavelet) that travel by paths of different lengths to the registering surface. If there are multiple, closely spaced openings (e.g., a diffraction grating), a complex pattern of varying intensity can result.
These effects also occur when a light wave travels through a medium with a varying refractive index, or when a sound wave travels through a medium with varying acoustic impedance – all waves diffract, including gravitational waves, water waves, and other electromagnetic waves such as X-rays and radio waves. Furthermore, quantum mechanics also demonstrates that matter possesses wave-like properties, and hence, undergoes diffraction (which is measurable at subatomic to molecular levels).
The amount of diffraction depends on the size of the gap. Diffraction is greatest when the size of the gap is similar to the wavelength of the wave. In this case, when the waves pass through the gap they become semi-circular.
