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Updated on 09th March, 2023 , 2 min read
The Huygens Principle is also known as the Fresnel-Huygens Principle. This principle bears the names of two scientists: Augustin-Jean Fresnel, a French scientist, and Christiaan Huygens, a Dutch scientist. It is an analysis method that applies to wave propagation problems in the near-field and far-field limits, as well as near-field diffraction and reflection.
According to Huygens' principle, all points of a wave front of sound in a transmitting medium or of light in a vacuum or transparent medium can be regarded as new sources of wavelets that expand in all directions at a rate determined by their velocities.
The following wave propagation behaviour is highlighted by the Huygens Principle:
Huygens proposed that light is fundamentally a wave that spreads through space, similar to waves in water or sound in air. As a result, light spreads out like waves from a source in all directions. A wavefront is the location of focuses that traveled far during an immovable span. As a result, the locus of focuses that light has gone through during a fixed timeframe may be a circle from some degree of wellspring of daylight.
When a primary wavefront is created, a secondary wavefront is also created for every primary wavefront. At the same time, every point on that wavefront will now act as a secondary source of light, generating more wavefronts. Light waves spread out in space in this way, creating secondary sources and wavefronts.
When light passes through an aperture, each point on the light wave within the aperture can be regarded as a source, resulting in a circular wave that propagates outward from the aperture. As a result, the aperture generates a new wave source that propagates as a circular wavefront. The intensity is higher in the center of the wavefront and lower at the edges. This explains the observed diffraction pattern and why no perfect image of the aperture is created on a screen. This phenomenon is common in everyday life.
According to Huygens’ principle, every point on a wavefront is the source of spherical wavelets. The wavefront is formed by the sum of these spherical wavelets.
Christian Huygens, a physicist, proposed the Huygens principle.
The Huygens principle easily demonstrated light refraction and reflection. Huygens also demonstrated the concepts of diffraction and interference of light.
The Huygens principle does not explain why refraction exists at all. It also cannot explain how light retains energy as it travels.
Huygens’ principle applies to all types of waves, including water, sound, and light waves. It is useful not only for describing the propagation of light waves, but also for explaining the laws of reflection and refraction.