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The circumzenithal arc, also called the circumzenith arc (CZA), the upside-down rainbow, and the Bravais arc,"Mémoire sur les halos et les phénomènes optiques qui les accompagnent", J. de l' École Royale Polytechnique 31(18), 1-270, A. Bravais, 1847 is an optical phenomenon similar in appearance to a
CZA is caused by ice crystals that form plate-shaped hexagonal prisms, in horizontal orientation. The light that forms the CZA enters an ice crystal through its flat top face, and exits through a side prism face. The refraction of almost-parallel sunlight through what is essentially a 90-degree prism accounts for the wide color separation and the purity of color. The CZA can only form when the sun is at an altitude lower than 32.2°. The CZA is brightest when the sun is at 22° above the horizon, which causes sunlight to enter and exit the crystals at the minimum deviation angle; then it is also about 22° in radius, 1.5° in width. The CZA radius varies between 32.2° and 0°, getting smaller with rising solar altitude. It is best observed with solar altitudes of about 15°-25°; towards either extreme, it is vanishingly faint. When the Sun is observed above 32.2°, light exits the crystals through the bottom face instead, contributing to the almost colorless parhelic circle.
Because the phenomenon also requires that the ice crystals have a common orientation, it occurs only in the absence of
A water glass experiment (known at least since 1920,Gilbert light experiments for boys - (1920), p. 98, Experiment No. 9
link
/ref> cf. image on the rightPractical Education Vol. 1, Maria Edgeworth and Richard Lovell Edgeworth 1798, London, p.55-5
link
(misidentified as a rainbow): "S-, a little boy of nine years old, was standing without any book in his hand, and freely idle; he was amusing himself with looking at what he called a rainbow upon the floor: ..The sun shone bright through the window; ..At last he found, that when he moved the tumbler of water out of the place where it stood, his rainbow vanished. ..immediately observed, that it was the water and the glas together that made the rainbow. ..Leonardo Da Vinci, Anatomical drawings at Windsor, folio 118r, ca 150
link
/ref>) may be used to create an artificial circumzenithal arc. Illuminating the top air-water interface of a nearly completely water-filled cylindrical glass under a shallow angle will refract the light into the water. The glass should be situated at the edge of a table. The second refraction at the cylinder's side face is then a skew-ray refraction. The overall refraction turns out to be equivalent to the refraction through an upright hexagonal plate crystal when the rotational averaging is taken into account. A colorful artificial circumzenithal arc will then appear projected on the floor."Artificial circumzenithal and circumhorizontal arcs", M. Selmke and S. Selmke, American Journal of Physics (Am. J. Phys.) Vol. 85(8), p.575-58
link
/ref> Other artificial halos can be created by similar means.
Atmospheric Optics - About CZAs
Circumzenithal arc over Rome, Italy
Timelapse video of weak Circumzenithal Arc
Circumzenithal Arc Over Frisco, TX , 1-23-11 , Clouds 365 Project - Year 2
Spaceweather.com Atmospheric optics expert Les Cowley created a diagram labeling the halos
Images of artificial circumzenithal, circumhorizontal and suncave Parry arcs
Italian Aviation Meteo service
{{DEFAULTSORT:Circumzenithal Arc Geometrical optics Atmospheric optical phenomena
rainbow
A rainbow is an optical phenomenon caused by refraction, internal reflection and dispersion of light in water droplets resulting in a continuous spectrum of light appearing in the sky. The rainbow takes the form of a multicoloured circular ...
, but belonging to the family of halos arising from refraction
In physics, refraction is the redirection of a wave as it passes from one transmission medium, medium to another. The redirection can be caused by the wave's change in speed or by a change in the medium. Refraction of light is the most commo ...
of sunlight through ice crystals
Ice crystals are solid water (known as ice) in crystal structure, symmetrical shapes including hexagonal crystal family, hexagonal columns, hexagonal plates, and dendrite (crystal), dendritic crystals. Ice crystals are responsible for various at ...
, generally in cirrus or cirrostratus clouds, rather than from raindrops. The arc is located a considerable distance (approximately 46°) above the observed Sun
The Sun is the star at the centre of the Solar System. It is a massive, nearly perfect sphere of hot plasma, heated to incandescence by nuclear fusion reactions in its core, radiating the energy from its surface mainly as visible light a ...
and at most forms a quarter of a circle centered on the zenith
The zenith (, ) is the imaginary point on the celestial sphere directly "above" a particular location. "Above" means in the vertical direction (Vertical and horizontal, plumb line) opposite to the gravity direction at that location (nadir). The z ...
. It has been called "a smile in the sky", its first impression being that of an upside-down rainbow. The CZA is one of the brightest and most colorful members of the halo family. Its colors, ranging from violet on top to red at the bottom, are purer than those of a rainbow because there is much less overlap in their formation.
The intensity distribution along the circumzenithal arc requires consideration of several effects: Fresnel's reflection and transmission amplitudes, atmospheric attenuation, chromatic dispersion (i.e. the width of the arc), azimuthal angular dispersion (ray bundling), and geometrical constraints. In effect, the CZA is brightest when the Sun is observed at about 20°.
Contrary to public awareness, the CZA is not a rare phenomenon, but it tends to be overlooked, since it occurs so far overhead. It is worthwhile to look out for it when sun dogs are visible, since the same type of ice crystals that cause them are responsible for the CZA.
Formation
CZA is caused by ice crystals that form plate-shaped hexagonal prisms, in horizontal orientation. The light that forms the CZA enters an ice crystal through its flat top face, and exits through a side prism face. The refraction of almost-parallel sunlight through what is essentially a 90-degree prism accounts for the wide color separation and the purity of color. The CZA can only form when the sun is at an altitude lower than 32.2°. The CZA is brightest when the sun is at 22° above the horizon, which causes sunlight to enter and exit the crystals at the minimum deviation angle; then it is also about 22° in radius, 1.5° in width. The CZA radius varies between 32.2° and 0°, getting smaller with rising solar altitude. It is best observed with solar altitudes of about 15°-25°; towards either extreme, it is vanishingly faint. When the Sun is observed above 32.2°, light exits the crystals through the bottom face instead, contributing to the almost colorless parhelic circle.
Because the phenomenon also requires that the ice crystals have a common orientation, it occurs only in the absence of turbulence
In fluid dynamics, turbulence or turbulent flow is fluid motion characterized by chaotic changes in pressure and flow velocity. It is in contrast to laminar flow, which occurs when a fluid flows in parallel layers with no disruption between ...
and when there is no significant up- or downdraft.
Lunar circumzenithal arc
As with all halos, the CZA can be caused by light from the Moon as well as from the Sun: the former is referred to as a lunar circumzenithal arc. Its occurrence is rarer than solar CZA, since it requires the Moon to be sufficiently bright, which is typically only the case around full moon.Artificial circumzenithal arc
A water glass experiment (known at least since 1920,Gilbert light experiments for boys - (1920), p. 98, Experiment No. 9link
/ref> cf. image on the rightPractical Education Vol. 1, Maria Edgeworth and Richard Lovell Edgeworth 1798, London, p.55-5
link
(misidentified as a rainbow): "S-, a little boy of nine years old, was standing without any book in his hand, and freely idle; he was amusing himself with looking at what he called a rainbow upon the floor: ..The sun shone bright through the window; ..At last he found, that when he moved the tumbler of water out of the place where it stood, his rainbow vanished. ..immediately observed, that it was the water and the glas together that made the rainbow. ..Leonardo Da Vinci, Anatomical drawings at Windsor, folio 118r, ca 150
link
/ref>) may be used to create an artificial circumzenithal arc. Illuminating the top air-water interface of a nearly completely water-filled cylindrical glass under a shallow angle will refract the light into the water. The glass should be situated at the edge of a table. The second refraction at the cylinder's side face is then a skew-ray refraction. The overall refraction turns out to be equivalent to the refraction through an upright hexagonal plate crystal when the rotational averaging is taken into account. A colorful artificial circumzenithal arc will then appear projected on the floor."Artificial circumzenithal and circumhorizontal arcs", M. Selmke and S. Selmke, American Journal of Physics (Am. J. Phys.) Vol. 85(8), p.575-58
link
/ref> Other artificial halos can be created by similar means.
See also
* Circumhorizontal arc * Circumscribed halo * Kern arc * Sun dogReferences
* David K. Lynch and William Livingston. ''Color and Light in Nature.'' 2nd ed, 2004 printing. * *External links
Atmospheric Optics - About CZAs
Circumzenithal arc over Rome, Italy
Timelapse video of weak Circumzenithal Arc
Circumzenithal Arc Over Frisco, TX , 1-23-11 , Clouds 365 Project - Year 2
Spaceweather.com Atmospheric optics expert Les Cowley created a diagram labeling the halos
Images of artificial circumzenithal, circumhorizontal and suncave Parry arcs
Italian Aviation Meteo service
{{DEFAULTSORT:Circumzenithal Arc Geometrical optics Atmospheric optical phenomena