What on Earth, er, in heaven, has caused them to have square edges (look like flattened golden rectangles) (gigantic, orbiting Regulus not Jupiter) is a branch of physics no one knows at this present time (circ Jan 27/2004), but don't expect to get sucked in just looking at them

The two photos are not able to reveal in which direction the trio is orbiting at the time their portraits were taken. For this reason, a second view is shown next, with the objects in the trios obiting in reverse order

Click on images for large



The first view above assumes the trio is orbiting away, closer to the camera in orbit (red false color) and then farther away (blue false color) the trio growing smaller, its objects closer together, and dipping down as it hurtles around the rear crescent of the orbit appearing in a snap shot in time closer to the axis of the star and closer down to the central horizontal horizon through the star



The second view shows if orbiting in the opposite direction, down and back more behind giant star Regulus in the crescent of its orbit, and then (red image right) now progressed out in the open closer to the camera and higher up in orbital crescent

A most noticable syndrome of trios is flexibility in shape of each of the three members in the try. These guys are really flying. In the above images, flat rods have tranformed into thin waving pancakes set at a different consistent angle for the three members, and visa versa if in orbit toward us. We learn at once that trio objects can vacillate, if not actually revolve and tumble in their orbits, while uniformly morphing in shape

These migrating oblongs around Regulus may be warping planetoidal disks, which are flubbing and dubbing in a yin yang way as they orbit, like rubber bananas. In which case there would have to be something at the center to keep the vaccilating disks coherent. Black hole stars come to mind, not seen, but powerful enough to keep their disks coherent over long enough periods of time to measure them in different positions, photographically



Both occurrences have an interesting aspect in physics, that their leading edges fall along a perfectly straight line. It moves them into a new class, whose formulations may include a new branch of mathematics termed domino ratios

If you will notice, the center tidal has a slash shaped dark dot against its left edge, in the blue center tidal a dark dot is now at the right edge, indicating rotation, if the dark dot is indicative of some kind of kernal concentrate in the tidal, the left to right displacement indicates that the tidals are disks (at least the center tidal) in rapid 'daily' rotation about a polar axis

These tidals may not be in the same plane simultaneously, they may be oscillating in and out like three bolo balls taking turns being furthest ahead - farthest behind - while travelling around a path at right angles to the bolo ball oscillations, which may explain why none are deviating to the side in their straight line radial orbit out from the star

Bolo balls in an out, falling behind, accelarating, semi rythmically while maintaining the same orbital glide path, held in the path by fluidic gravitational tides amongst the trio

The Dss 'blue filter' photo next contains a family of tidal trios, none of these other trios are seen in the red filter photo, only one trio is seen (shown in grey) in the red filter image

Click on image for large



The red filter photo contains what appears to be a sizeable clump, strung out, of what could be mass coronal ejection, showing (if ejection) that Regulus is powerfully explosively active



A sizeable star cluster has been exposed by the image enhancements of giant star Regulus. The cluster is not seen recognizeable as a star cluster in the Regulus 60x60 arcminute Dss black and white plates. In enhancements next, the star cluster can be seen to be substantial





Flying dominos at Regulus are used to illustrate domino ratios which can be expand to explore the occurrence of perfect eclipses in the solar system

The same trio is assumed in the two photos, in that no other Dss pic shows anything like them although the Dss plate containing the wang version (warped) also has other tidal trios, in fact, quite a few, but so dim it took extra craft enhancing them enouph for a show and tell



Two transolar orbits can be identified in this pic, the wangs cross orbit to a trio of three masked inside the shell mantle, and another three in blue further to the left cross orbit to link with two tidals visible one right at the lip of the shell mantle where it is possible a 3rd tidal is inside the shell and wiped by the shell's overbright





Except for the three flying wangs (bananas) none of the trios are recurring clones their trio objects mostly gobs many with hot centers

Some of these trios are in the same ecliptic plane of orbit (same orbital tilt) extended to the other side of the star. This we know because their radial axis crosses the center of the star, except, given constraints of small tidal objects in a large plate it is not practical to try and illustrate identify transolar orbits with indicated axis in the large overview immediately above, the complications are too many to do this in an at-home graphics editor

At Regulus - disturbed trio

Trio in the making - or at an end - or in a momentary quick appear/disappear existence, in either case three fronds are present in a trio the 3rd (farthest out) is faint











At Regulus

A round object makes passage from an outer left position (in a Dss Poss1 A plate view), to a lower right position behind the star (much smaller) years later in a Dss Poss2 infrared view. The object, faint, with brute strength in enhancements needed to reveal details, is possibly a brown dwarf star





At Regulus - faint lines

Faint lines are seen in a Dss Poss2 plate, in diagonal. Extra lines (other than the plus sign of the 4 cardinal points of a compass as light spikes) are not usually seen in Dss plates. In this Regulus snapshot the faint lines in parallel cross upper left to lower right, and a second line crosses lower left to upper right. Extreme magnification of available light information was required to show the lines



THE PALE HIDER



A ghost light ring has appeared in the Regulus Poss1 Dss A plate, irregular and distorted it does not seem connected to anything and is much bigger than nearby star Regulus. A quirk in imaging, supposed

If you click for this large original plate and look closely along the upper right edge you will see a faint indication of the lower hem of the pale hider, once again revealing how much hidden content is silent in Dss plates, where nonetheless dim medias contain enormous ranges of information too dim to be discerned by normal eyesight but easily revealed when the images are enhanced without caution and with brute strength

Rings similar (though not distinctly lens light in style) have been noted in Dss plates and are collected in the Darkhole.htm page

Web site/display/designs/image enhancements - Greydon Moore World's largest cosmic teaching site - Ottawa 2001/2004         form   A & O 3 3