Update - Email from an employee at the Space Science Institute in Boulder, Colorado, on June 23, 2007:

"I enjoy visiting your Earthfiles website for news on topics one normally doesn't hear much about, and your reports to Coast to Coast which I listen to when I stay up late working on art projects or photographs. I like that you're keeping on top of the disappearing bees situation.

About your recent Earthfiles report, What Is the Moving Light in Saturn's Rings? A Sundog? The bright spots in the four images are not a sundog. It's called the 'opposition effect' and is seen in the rings whenever Cassini is looking in the exact same direction as the sunlight. It's due to sunlight illuminating everything face-on (what astronomers call 'zero phase angle') and therefore, no shadows exist.

I work at the Space Science Institute, doing most of the image processing for the Cassini cameras in one of the groups."

[ Editor's Note: Space Science Institute: "The opposition effect exists because of two contributing factors. One is due to the fact that the shadows of ring particles directly opposite the Sun from Cassini–the region of opposition–fall completely behind the particles as seen from the spacecraft. These shadows are thus not visible to the spacecraft: all ring particle surfaces visible to Cassini are in sunlight and therefore bright. Away from the region of opposition, the ring particle shadows become more visible to Cassini and the scene become less bright. The surge in brightness falls off in a circular fringe around that point.

"Another contributing factor to the opposition surge is an optical phenomenon called “coherent backscatter.” Here, the electromagnetic signal from the rays of scattered sunlight, making their way back to the spacecraft, is enhanced near the region of opposition because, instead of canceling, the electric and magnetic fields comprising the scattered radiation fluctuate in unison.

The July 23, 2006, images were taken in visible light with the Cassini spacecraft wide-angle camera at a distance of approximately 262,000 kilometers (163,000 miles) from Saturn. Image scale in the radial, or outward from Saturn, direction is 13 kilometers (8 miles) per pixel." ]