Subhelic arc

A subhelic arc is a rare halo, formed by internal reflection through ice crystals, that curves upwards from the horizon and touches the tricker arc above the anthelic point. Subhelic arcs are a result of ray entrance and exit through prism end faces with two intermediate internal reflections.

Formation

A subhelic arc is formed when sun rays enter one end face of an ice crystal in singly oriented columns and Parry columns, reflect off two of the crystals side faces, and exits the crystal through the opposite end face. The ray leave the crystal in the exact opposite angle, resulting in a net deviation angle of 120°, the angle for the formation of 120° parhelia.[1]

The subhelic arc touches the top of the tricker arc, an indication the two have closely related ray paths.[2]

The subhelic arc crosses the parhelic circle in an acute angle, and at a sun elevation of 27° it passes exactly through the 120° parhelion.[3]

See also

Notes

  1. Cowley, South Pole Halos - Zenith View
  2. Cowley, South Pole Halos - Anthelic View
  3. Vornhusen, First Report on the Danzig Halo Display

References

  • Cowley, Les. "South Pole Halos - Zenith View". Atmospheric Optics. Retrieved 2008-10-10.
  • Cowley, Les. "South Pole Halos - Anthelic View". Atmospheric Optics. Retrieved 2008-10-10.
  • Vornhusen, Mark. "First Report on the Danzig Halo Display". Arbeitskreis Meteore e.V. Retrieved 2008-10-10.
  • Moilanen, Jarmo. "A short introduction into halos". FHON - Finnish Halo Observing Network. Retrieved 2008-10-10. (Including a drawing from a halo observation in Oulunsalo, Finland, in April 1996.)
  • Moilanen, Jarmo. "Subhelic arc in Finland". Ice Crystal Halos. Retrieved 2008-10-10. (A halo display including a subhelic arc, observed in Oulu, Finland, May 2008.)


This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.