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ULTRA VIOLET M15
I like speculating as much as the tony in the other door. Here is my current speculation about Globular Clusters of stars, such as M15, (also Ngc 7078).
In an image like this it is impossible to escape the notion that stars are following each other like imprinted baby geese in closely packed curved rows. The common term is necklaces - that stars are ordered in necklaces, stars following one another close together in curved lines, forming necklaces. Necklaces seem everywhere, of short length up to a dozen or more stars all in a row, some necklaces longer.
Two images side by side means you focus the two together in overlay to see stereo, that way, the necklaces stand forth in clearly seen different planes and angles.
There seems no limit as to star size some are bigger (or at least brighter) than others one against another in a star necklace. There also seems no restrictions as to radii size of the star necklace curvatures, some seem able to complete a closed circle with only a few more stars added in a string which has only a handfull of stars to begin with. Other necklaces are strung out in large open radii of curvatures.
It seems possible that star necklaces can get organized then get broken up leaving two segments, and other star necklaces can hook up creating longer temporary single versions. It is possible to see in visional innerscape that necklaces are the basic component of globular clusters and are constantly regrouping and reforming like gene splices in a primordeal pea soup which keeps slowly evolving, making amino acids, breaking up the acids, making new aminos all over again as the stars and necklaces hurtle around each other in closely packed chaotically elliptical orbits (like asteriods in chaotically elliptical orbits which never repeat).
An observer might think that stars herding in a crescent or arc must be orbiting some common strong local gravitation point to so stay together in 'orbit' but another answer seems more likely since nothing is seen that can keep stars 'orbiting' around a common point of center at a common radius.
Instead, importantly, the necklaces themselves can orbit when angular momentums in each star of a necklaces are summed up on the right trajectories. It is possible that necklaces yin and yang, that is, constantly change their curvatures and radii as they orbit, their stars still clinging together in a chain like a piece of bead chain pull cord writhing in a contorting string when flying through the air.
At the center of such a globular cluster as M15 is speculated to reside a powerful small black hole. If there, the black hole does not need to be circular or diskally flat, in which case its oddball non-disk non-sphere topology would be constantly tossing gravitation gyrations into the mix causing necklaces to accelerate and hurtle fast in one direction, and another necklace to hurtle away slowly in another direction, which is why there is not smooth orbital coherency among the stars like rings around a planet, or like concentric shells around an egocentric universe with the black hole a god at center singly smiling as it lords a perfect unchanging domain.
After N billions of years you would think the stars could gain orbital coherency around a strong center point within the globular cluster but this is not the case in any globular cluster seen by telescope and part of the charm of antronomy second guessing is how stars can stay within globular clusters when whizzing around at such high velocities. Strings are a partial answer, stars in necklaces, like snapping whips the higher velocity at one end of a necklace is countered by slower moving stars at the other end, or middle, levelling out the momentum playing field and preventing stars from hurtling off to become wandering celestial cowboys alone and finally winking out somewhere in the galaxy).
Radial rosetts made of stars in coherent prismatic formations are another factor seen in Globular Clusters (as well as in small galaxies).
Here is a radial rosette in M15, seen in the upper right quadrant in this image.
A spray of lines shoots vertically out from the center hub of the rosette, which means a possibility that something in the hub is generating transmuting forces that 'feels' outward at long distance.
Very subtle, that might be a crease seen in the left hand side of the rosette. If real, it means the rosette has a fractal six-sided cleavage, which is best illustrated next by a gold crystal magnified 40,000 times.
It is my guess that such rosettes are formed by gravitational gradiants radiating off one end (pole) of the globular cluster's core, in which case, another object - perhaps rotated in sharply opposite angles or of an entirely different kind of coherent figure - is to be found on the opposite side of the core from the radial rosette. In which case, the radial rosette (and opposite coreside figure if existing) form positive and negative poles whose force kenetics extend to the ends of a long axis to long distances from the core itself.
In the case of M15, because we can see the radial rosette in the front plane, the polar opposite pole's figure is unseable by us, hidden behind the scenes. The rosette we see is seen at an oblique angle and so seems compressed toward oval shape. It is my guess that if seen face-on hovering directly over it, the rosette could be quite circular, and perhaps would have a bias along one edge dipping toward the core.
In fact, another rosette, closer to the core, is seen in the lower left quadrant. This rosette constructs of coherent circles. A curved necklace on a different plane twines into the figure from a source near the core.
Exposure to three enhancements, instead of one, better makes the picture see. This concentric circles rosette is in a polar opposite position to the cleaved rosette examined further above in the upper right quadrant.
CENTER CORE ROD
Look at the hot center of the cluster. Granted there are stars overlaying all the way to the circumpherence in our direction, nevertheless some inner construction is barely visible, and the inner construction is (in the ultra violet lights of this photo) not diskal or spherical, it is rod shaped, like a long core of a differential motor. There is a faint collar around the upper right of the innermost region.
Interestingly, the west end of the 'rod' points specifically to the circular rosette formation spotted in the outer congestion of seeming teeming chaotic stars, and not along the axis indicated further above. The east end of the 'core rod' points to an area at the top of the east side fractal rosette. Core pointing should not be concidered co-incidental.
There are insects in central Ontario in Canada which glue pond ditrus around themselves to disguise their hulks as they leg in slow motion up and down the stems and weeds of a pond. An irregular shaped rod-shaped black hole should be expected to do no less, wrapping itself with ditrus, revealing its hidden shape and presence.
HUBBLE VIEWS
In visible light (not ultraviolet) Hubble presents a somewhat different looking M15 core - the 'rod' is not plainly seen even though star necklaces of short and long duration are abundantly writhing tight around the core where the black hole is supposed to lurk working its ways in mystical silence.
A longer range Hubble view in visible light colors, in closeup, shows a diskette around mid point center, and prominent bubble cell walls.
Closeup shows every area densly packed with tiny infintisimo 'atoms'.
BURNED OUT 'DARK CINDERS' DENSLY PACK M15
Notice how many tiny stars of more or less uniform size are filling every nook and cranny between the larger stars. There may be more than the officially estimated 100,000 stars in this globular cluster if the sheer number of infintesimos (tiny stars) have not all been counted. The 'infintesimos' are so numerous they almost seem to be solid in there densly packing every nook and cranny.
In telescope star resolution (not pinpricks far apart instead bold beads) the tiny red stars fill every crevace in myriads like tiny atoms packed nestled together amongst big atoms in an electron microscope scene.
If not already counted, how much more gravitational mass-weight do these 'infintesimo' stars add to the globular's total. It is like finding for the first time that crystal glass (leaded glass) is made of densly packed lead atoms not seen in usual ways looking through the glass since the lead atoms are spaced far enough apart in the silicone compound to be transparant so are not seen solid like a brick of lead, even though they have lead related weight. (Crystal glass can weigh a ton yet be more brilliantly transparent than ordinary glass). The M15 'infintesimos' were not seen clearly in their densly packed way until the images were very highly enhanced, in red color in particular. There are no empty areas without tiny atoms peeking through.
I am guessing that the 'infintesimos' or at least some of them, are small 'dark cinders' of burned out stars. Missing mass speculators are suggesting a major population of burned out star cinders crowding galactic halos. Perhaps their thoughts are on the right track since burned out cinders seem to be crowding the M15 globular cluster with dense tiny atoms of barely seen starlight.
A question obviously raised is how many 'stars' seen in Image 3 are shining through from the Milky Way behind, or are in the Milky Way foreground. Strong blue vrs red enhancement shows a star density picture not much different than the saturation of red enhanced stars, so starlight captured in different frequencies is not going to give a quick answer with this Hubble photo.
I have to implicate the darkness and suggest there could be many more dark cinders (infintisimos) out there in the outer fringes unseen. More are clearly seen in the center area simply by being illuminated in light cast from the inner neighborhood's crowded bright star population. Hints are clear enough that the small dim stars in the darkness (those that have been revealed by the illumination of high enhancement as shown in the five large profiles above) are also organized in necklaces and short compact strings as are the infintisimos of the innermore regions of the bubble laced globular.
Many v-shaped (folded) leaves of different sizes, ending in chevron tips, are sticking out around the left flank of the core, this HAS to be significant in some way in indicating the way forces hork out in semi-stable organizations, v-shaped leaves and chevrons are a common feature seen in intense nebulas from exploding or puffing stars.
A really good example of chevron (folded leaf tips) is seen in nebula Ngc 2440.
A final question has to be raised, and this is a question as to how many of the stars seen in runs of parallel lines are sitting organized along the crests (or alternatively in valleys) of gravity waves.
That, cough, ahem, ends the speculation. Any more at this point by me would be, I think, foolhardy.
OTHER STAR DENSE SAMPLES
Look at the population of the tiny red 'atomic' stars coaxed out of hiding by tongue out enhancements of a famed Hubble image of a star area in the Tarantula nebula. The image is famous in being one of the very first Hubble images which actually showed s t a r s .
Necklaces and string beads are a way of life for these tiny dim stars as well. Both red and blue color adjustments were used, indicating that such stars also post notice of themselves in blue, as well as red, starlight.
The above star cluster is featured in a GIC look at 30 Doradus.
OTHER CLUSTERS
I went to a Hubble
public images site to find the original starcluster image in 30
Doradus, could not find it. Instead I downloaded several starcluster
and globular cluster Hubble images at random and looked at them for
hidden atom star content.
I did their images in a hurry without too much regard as to best
enhancing possible. The results are still good, that is, that you
can see hosts of small star populations filling dark regions in
original images, as well, necklaces and star chains are everywhere.
Image 1 Image 2
Image 3 Image 4
Image 5 Image 6
Image 7
Next is an example of the kind of content expansion and image quality
gained in the GIC (my) approach to image enhancements, stars with disks
expand to vast lineally radiant areas around each star, the extended
radians not seen in the Hubble originals. Surely astronomers must have
been aware of the radians, as well as the donut disks, and chose to
show only the disks in keeping with the thrust of their
captions and disclosures.
I prefer to see both the disk and the radians together because this way
I can cogitate in the quiet backgrounds of glimmering mind as to why a
star is producing both a disk and radians simultaneously - the radians
at this moment supposed extra intense coronal discharges such as seen
more sedately at our Sun during a total solar eclipse. For example,
the radians around the left hand star extend into space a distance
many times the orbit of Neptune, and at that, only a portion of the
radians have been captured onscreen - what an eclipse THIS would be if
we could see it closeup.
One of the downloads at random is this, next, the globular cluster known
as Omega Centauri said to have millions of stars packed into it. Densly
packed globular cores are already well known, here is the core of Omega
Centauri by Hubble, it is fabulously packed with atoms and necklaces. In
this image, no distinct formation recognizable as 'core' is seen, probably
the 'core' is behind a firewall of solid stars.
More images of rosettes, woodticks, creases, and hexagon objects in
nebula, star fields, and galaxies, can be seen in the GIC 'tympani
resonators' collection.
Tympani.htm
Tympani2.htm
Tympani3.htm
Hexagram.htm
Globular.htm
Prisms.htm
Web site/display/designs/image enhancements - Greydon Moore World's largest cosmic teaching site - Ottawa 2001/2004 form A & O 3 3
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