Circumhorizontal arc

A circumhorizontal arc (bottom) in relation to a circumscribed halo (top), Oregon. Photo taken by Shayla Doering

A circumhorizontal arc is an optical phenomenon - an ice-halo formed by the refraction of sun- or moonlight in plate-shaped ice crystals suspended in the atmosphere, typically in cirrus or cirrostratus clouds. In its full form, the arc has the appearance of a large, brightly spectrum-coloured band running parallel to the horizon, located below the Sun or Moon. The distance below the Sun or Moon is twice as far as the common 22-degree halo. Red is the uppermost colour. Often, when the halo-forming cloud is small or patchy, only fragments of the arc are seen. As with all halos, it can be caused by the Sun as well as (but much more rarely) by the Moon.^[1]

Other currently accepted names for the circumhorizontal arc are circumhorizon arc or lower symmetric 46° plate arc.^[2] The misleading term "fire rainbow" is sometimes used to describe this phenomenon, although it is neither a rainbow, nor related in any way to fire. The term, apparently coined in 2006,^[3] may originate in the occasional appearance of the arc as "flames" in the sky, when it occurs in fragmentary cirrus clouds.^[4]

Formation

The halo is formed by sunlight entering horizontally-oriented, flat, hexagon ice crystals through a vertical side face and leaving through the near horizontal bottom face (plate thickness does not affect the formation of the halo). In principle, Parry oriented column crystals may also produce the arc, although this is rare. The 90° inclination between the ray entrance and exit faces produce the well-separated spectral colours. The arc has a considerable angular extent and thus, rarely is complete. When only fragments of a cirrus cloud are in the appropriate sky and sun position, they may appear to shine with spectral colours.^[5]

Frequency

How often a circumhorizontal arc is seen, depends on the location and the latitude of the observer. In the United States it is a relatively common halo, seen several times each summer in any one place. In contrast, it is a rare phenomenon in northern Europe for several reasons. Apart from the presence of ice-containing clouds in the right position in the sky, the halo requires that the light source (Sun or Moon) be very high in the sky, at an elevation of 58° or greater. This means that the solar variety of the halo is impossible to see at locations north of 55°N or south of 55°S. A lunar circumhorizon arc might be visible at other latitudes, but is much rarer since it requires a nearly full Moon to produce enough light. At other latitudes the solar circumhorizontal arc is visible, for a greater or lesser time, around the summer solstice. Slots of visibility for different latitudes and locations may be looked up here. For example, in London, England the sun is only high enough for 140 hours between mid-May and late July, whereas Los Angeles has the sun higher than 58 degrees for 670 hours between late March and late September.

Similar optical phenomena

Circumhorizontal arcs, especially when only fragments can be seen, are sometimes confused with cloud iridescence. This phenomenon also causes clouds to appear multi-coloured, but it originates from diffraction (typically by liquid water droplets or ice crystals) rather than refraction. The two phenomena can be distinguished by several features. Firstly, a circumhorizon arc always has a fixed location in the sky in relation to the Sun or Moon (namely below it at an angle of 46°), while iridescence can occur in different positions (often directly around the Sun or Moon). Secondly, the colour bands in a circumhorizon arc always run horizontally with the red on top, while in iridescence they are much more random in sequence and shape, which roughly follows the contours of the cloud that causes it. Finally, the colours of a circumhorizon arc are pure and spectral (more so than in a rainbow), while the colours in cloud iridescence have a more washed-out, "mother of pearl" appearance.

Confusion with other members of the halo family, such as sun dogs or the circumzenithal arc, may also arise, but these are easily dismissed by their entirely different positions in relation to the Sun or Moon. More difficult is the distinction between the circumhorizontal arc and the infralateral arc, both of which almost entirely overlap when the Sun or Moon is at a high elevation. The difference is that the circumhorizontal arc always runs parallel to the horizon (although pictures typically show it as a curved line due to perspective distortion), whereas the infralateral arc curves upward at its ends.^[5]

• 

  A circumscribed or 22° halo (top) together with a circumhorizon arc (bottom), photographed in Mexico

• Circumhorizontal arc in Michigan.jpg

  Photographed in Ravenna, Michigan

• 

  Photographed in Hocking Hills, Ohio

• Circumhorizon Arc in Alentejo, Portugal.jpg

  Photographed in Alentejo, Portugal

• Circumhorizontal arc Banjarmasin Indonesia.png

  Photographed in Banjarmasin, Indonesia

• 

  Photographed at Emerald Isle, North Carolina

• Rainbow clouds pictured near Kennedy Space Center, Florida.jpg

  Photographed near Kennedy Space Center, Florida

• Circumhorizontal arc lewisville tx.jpg

  Photographed near Lewisville,Texas

See also

• Halo (optical phenomenon)
• Sundogs
• Cloud iridescence
• Circumzenithal arc
• Polar stratospheric cloud

References

External links

Wikimedia Commons has media related to Circumhorizontal arcs.

• Atmospheric Optics - Circumhorizon Arc
• How rare are they? When to see them.
• Atmospheric Optics - Image gallery
• Circumhorizontal Arc - Arbeitskreis Meteore e.V.
• Circumhorizontal Arc - Harald Edens Weather Photography
• August 2015 "Fire Rainbow" South Carolina^[1]

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