Sunbeams in Nevada during a sunset
Daytime sunbeams as seen from the ISS, illustrating their parallel nature

A sunbeam, in meteorological optics, is a beam of sunlight that appears to radiate from the position of the Sun. Shining through openings in clouds or between other objects such as mountains and buildings, these beams of particle-scattered sunlight are essentially parallel shafts separated by darker shadowed volumes. Their apparent convergence in the sky is a visual illusion from linear perspective. The same illusion causes the apparent convergence of parallel lines on a long straight road or hallway at a distant vanishing point.[1] The scattering particles that make sunlight visible may be air molecules or particulates.[2]

Crepuscular rays

Crepuscular rays as seen from Taipei, Taiwan (2018)

Crepuscular rays or god rays are sunbeams that originate when the sun is just below the horizon, during twilight hours.[3] Crepuscular rays are noticeable when the contrast between light and dark is most obvious. Crepuscular comes from the Latin word "crepusculum", meaning twilight.[4] Crepuscular rays usually appear orange because the path through the atmosphere at sunrise and sunset passes through up to 40 times as much air as rays from a high midday sun. Particles in the air scatter short wavelength light (blue and green) through Rayleigh scattering much more strongly than longer wavelength yellow and red light.

Loosely, the term "crepuscular rays" is sometimes extended to the general phenomenon of rays of sunlight that appear to converge at a point in the sky, irrespective of time of day.[5][6]

Anticrepuscular rays

These anticrepuscular rays appear to converge at the antisolar point, as viewed from an aircraft above the clouded ocean.

In some cases, sunbeams may extend across the sky and appear to converge at the antisolar point, the point on the celestial sphere opposite of the Sun's direction. In this case, they are called antisolar rays (anytime not during astronomical night) or anticrepuscular rays (during the twilight period).[7] This apparent dual convergence (at both the solar and the antisolar points) is a perspective effect analogous to the apparent dual convergence of the parallel lines of a long straight road or hallway at directly opposite points (to an observer above the ground).[8]

Alternative names

  • Backstays of the sun,[9] a nautical term, from the fact that backstays that brace the mast of a sailing ship converge in a similar way
  • Buddha rays[2]
  • God rays, used by some members of the computer graphics industry[10]
  • Jacob's Ladder[2]
  • Light shafts, sometimes used in the computer graphics industry, such as the game engine Unreal Engine[11]
  • Ropes of Maui, originally taura a Maui  from the Maori tale of Maui Potiki restraining the sun with ropes to make the days longer[2]
  • Sun drawing water, from the ancient Greek belief that sunbeams drew water into the sky (an early description of evaporation)[2]

See also

References

  1. Schaefer, Vincent J.; Day, John A.; Pasachoff, Jay (1998). A Field Guide to the Atmosphere. Houghton Mifflin Harcourt. p. 169. ISBN 9781417657094.
  2. 1 2 3 4 5 Lynch, D. K.; Livingston, W. (1995). Color and Light in Nature. Cambridge: Cambridge University Press. ISBN 9780521468367.
  3. Naylor, John (2002). Out of the Blue: A 24-Hour Skywatcher's Guide. Cambridge University Press. pp. 77–79. ISBN 9780521809252.
  4. Edens, Harald. "Crepuscular rays". Weather Photography lightning, clouds, atmospheric optics & astronomy. Retrieved November 1, 2011.
  5. "Crepuscular Rays".
  6. "Weather Facts: Crepuscular rays | weatheronline.co.uk".
  7. Cowley, Les. "Anti-solar (anti-crepuscular) rays". Atmospheric Optics. Retrieved March 19, 2015.
  8. Day, John A. (2005). The Book of Clouds. Sterling. pp. 124–27. ISBN 9781402728136. Retrieved 2010-10-09.
  9. Heuer, K (1978). Rainbows, Halos, and Other Wonders: Light and Color in the Atmosphere. United States: Dodd, Mead. p. 94. ISBN 9780396075578.
  10. E.g. this term is mentioned in: Krüger, Jens; Bürger, Kai; Westermann, Rüdiger (2006). "Interactive screen-space accurate photon tracing on GPUs" (PDF). Proceedings of the 17th Eurographics conference on Rendering Techniques (EGSR'06).
  11. "Light Shafts". Unreal Engine 4 Documentation. Archived from the original on 2018-11-17. Retrieved 2018-11-17.
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