Ashen light

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Ashen Light was first sighted by the astronomer Giovanni Battista Riccioli on January 9, 1643, it is a subtle glow that is seen from the night side of the planet Venus. "Night side" means the opposite side of the observed planet from where the sun is shining. This is comparable to an observer on the Moon seeing China in daylight while it is dark in North America. This Ashen Light is said to be very similar to Earthshine on our moon, but not as distinguished in brightness. It has been frequently sighted by various researchers including Sir William Herschel, Patrick Moore, Dale P. Cruikshank and William K. Hartmann.

Contents 1 Detection Attempts 2 Other Hypotheses 2.1 Russell and Phillips 2.2 Inferior vs. superior conjunction 3 References

[edit] Detection Attempts

Several space missions have been dedicated to record sightings of the light in hopes of solidifying what Riccioli and others have claimed. The Pioneer and the Russian Venera 11 and 12 sent to Venus did not enjoy success in this area; it is believed that the Ashen Light is one that can only be seen through human eyes. There are a few hypotheses being considered to try to explain this astronomical phenomenon.

An attempt to view the Ashen light was made in Hawaii using the Keck 1 telescope. Researchers claimed to see a faint green glow on the night side of Venus. They suspected that is was carbon dioxide which is known be of a high concentration in that atmosphere. When the molecules are split by the ultraviolet light from the Sun, they become carbon monoxide and oxygen, which emits a green light. However, this light emitted is very faint, and researchers doubt that it is the explanation surrounding Ashen Light.

Amateur astronomers attempting to view the Ashen Light can try it by using an occulting bar, an opaque mask for one’s eyes. This lens blocks the sunlit portion of Venus which greatly cuts down extraneous light that is scattered in the eye, improving the chances of witnessing the faint Ashen glow. However, Venus light scattered by the Earth's atmosphere and in the telescope's lens still works against the observer, and it is very hard to get the timing just right. Nevertheless, there have been calculated times in which the light scattered by Earth is covered partially by our Moon. For example, on July 17, 2001, the progression of a crescent Moon temporarily hid the illuminated portion of Venus. Unfortunately the location needed to catch this almost perfect occultation was somewhere in the middle of the Atlantic Ocean, and it was only visible in this manner for 10 to 20 seconds.

[edit] Other Hypotheses

Another hypothesis for the cause of the Ashen Light is lightning. If there are several strikes in a period of time, the sequence may give off an overall glow in the skies of Venus, if this happens on the night side. However, in an article published in the January issue of Nature, a team of astronomers from the University of Iowa expressed negative criticism and doubt of this idea. After reviewing data taken from the Cassini spacecraft, which flew close to Venus in 1998 and 1999, the team resolved that no high-frequency radio noise was detected. On Earth we hear "static"-like noise on AM radio stations during thunderstorms. If the light was caused by lightning, similar noise would have been expected. However, this seems to be the most promising hypothesis, supported by many astronomers, including two researchers whose paper on their findings is examined below.

[edit] Russell and Phillips

Christopher T. Russell and J. L. Phillips from the Institute of Geophysics and Planetary Physics at the University of California in Los Angeles and the Los Alamos National Laboratory in Los Alamos, New Mexico have offered a mathematical approach to figuring out how exactly the Ashen Light is formed. The favored hypothesis, as explained in the paper, is the idea of lightning on Venus. Both believe that the phenomenon has occurred, stating in their paper that:

“

The fact that many totally independent observers have observed the Ashen Light simultaneously, that some of these simultaneous observations were made by professional astronomers and that the observations persist today with improved instrumentation suggest the phenomenon is real. In a pictorial representation, Figure 1. shows the occasions of Ashen Light sightings versus Earth-Sun-Venus angle both before and after inferior conjunction. The solid trace in the top panel shows the number of sightings from 1954 to 1962, while the bottom panel shows the same sightings normalized by the total number of observations at that magnitude of Earth-Sun-Venus angle. The dotted trace in each panel represents the probability function of equation, normalized to the same integrated value as the observations... We interpret this diagram as follows assuming that observers are constantly watching Venus so as to provide a similar amount of observing time at all longitudes. At large Earth-Sun-Venus angles Venus is more difficult to observe because it is further away. Moreover the percentage size of the sunlit hemisphere is larger so that the Ashen Light will be difficult to see. We would expect that the process causing Ashen Light should act equally well at all locations of Venus relative to the Earth. The variation in occurrence rate must be due mainly to observability from Earth.

”

[edit] Inferior vs. superior conjunction

Assuming that the location and the ability to observe the Ashen Light is in our favor, meaning we do not have to be in the middle of the ocean with technical instruments that allow us to view it without damage done to the eyes, Russell and Phillips found that it is possible to replicate the common characteristics of the sightings measured in the figure above. A more detailed explanation can be found in the paper itself for those interested in the mathematics of it.^[1]

Taking into consideration the limited amount of observation and the “simplicity of the model”, according to Russell and Phillips, the relation between observed sightings and the calculation seems to bring more promise in finding out the true cause of Ashen light. It supports the hypothesis that the source of Ashen Light occurs mostly on the night side of Venus. The distance from the Earth to Venus could be a factor that controls the visibility of the light, however it also has to do with the observer’s specific location.

[edit] References

• Gingrich, M.; Myers, E. (Mar 2001). "The Paradoxical Ashen Light of Venus". Bulletin 77 (7). Oakland, CA: The Eastbay Astronomical Society.