COSMICASTRONOMY.COM

DUST WORMS IN MANY GUISES

HOOKS (trio) LOOPS (trio)
STRANDS (pair) TANGLES (trio)
TAU CETI OVAL CHORTLE 1 (single)
TAU CETI OVAL CHORTLE 2 (single)
TAU CETI ROUND CHORTLE (single)
CAPELLA SQUARE CHORTLE (single)
VEGA ROUND CHORTLES (pairs)
COMMAS AT TAU CETI (pair)
COMMAS AT SIRIUS (pair)
DOG BONES (trios)

GRAVITY WAVES SATURATE DEEP SPACE AROUND TAU CETI
GRAVITY WAVES AT EPSILON CMA
GRAVITY WAVES INDEX

WARNING BIG PAGES - LONG LOADS IMPORTANT RELATED INFORMATION Domino ratio expansions Migrating trios in scalar formations Chortles orbiting certain stars in pairs, and in singles Gravity waves sticking out in radial spokes around a star Gravity waves sticking out in radial spokes around a planet Bilateral symmetry principles in galaxies and nebulas Bilateral symmetry examples in galaxies and nebulas Proto planetary disk systems with large scale rills Planets.htm     Planets1.htm     Planets2.htm

July 20/2004

DUST WORMS ARE VISIBLY ABUNDANT AROUND STARS

Notice, in the following images, that dust worms almost invariably appear in company with dust bunnys, whose intricate shelling truths are demonstated in the flying.htm page, where characteristic shapes including 'island ovals' have been given a number of different identity names, linked in the list at the top of the flying.htm page.

ANALOGUE

Dust worms are now believed to be the starters of planet formations in dust bands around stars.

Recent astronomers have concurred that dust worms can be pre-requisite precursor conglomerates for the formation of planets. Previously, every astronomer believed that clumps of dust conjoined, to build up a planet mass gradually. Dust worms do it much more elegantly and fast.

Witness in the images of this page how worms in a trio organize in a ballet of precise pristine mechanic principles in action, witness other worms snaking helter skelter across a broad zone of gravity velocities, which means, if not being torn apart by gravity tides, such long worms are twirling very rapidly like liquid rubber batons around a common gravitational point of center per each.

NEXT

Two exampling dust worms are shown. At left a dust worm seen in a Dss infra red photo around Tau Ceti, and at right, a tidal trio of three dust worms organized in unison around Alpha Ari.





A third worm, long and unorganized has been seen via Dss photo in the outskirts of Alpha Eri. The Dss photo has had to be cranked by every useful enhancement adjuster in a graphics editor to see it. It is so dim in low thermal temperature energy it cannot be seen in normal degrees of photo light intensities.

A section of the original is shown here click. As you can see, there is absolutely nothing in the Dss photo, but do not throw it away, in the photo is profoundly easy planetary prototype orbiting physics, (worms aligned like spokes - radially outward). As you can more than assume, a telltale picture is worth far more than mere conjectured possible theory, for instance how might dust worms behave without an image to guage the speculations.

Two views are shown, the second (next) is a pullback highly enhanced showing dust worms as long strands whose long axis point to the star which is offscreen to the lower left, the image is rotated, the light spike made by telescope rises vertically in the original image, here the spike happens to be at an angle.



How the two strings have been able to attain (or sustain) a long axis attitude vectored to the middle of the star is not self evidently clear in that intuitive assumptions would assume a gravitation differential sheer force in velocities causing the end closest to the star to move sideways in a rapid dissolvement of the whole structure but as is seen the structure is long and thin in a well defined vector comprising two sections stretching end to end with a small gap between.

Other tidal trio images which have been able to capture motion in orbit show that tidal trios are constantly changing shape and alignment but not around each other each tidal is locked in place and its axis rotates about a center point per each tidal object, even as the shape morphs, but uniformly, all three axis in a trio stay separated together in a choreography dance, as each tidal rotates uniformly abouts its own gravitational dynamic point of center, for example three reflections in a camera lens not one, the three all morphing uniformly and turning about cohesively on three separate axis as the camera moves and swings around.

Click for an example of a tidal trio captured migrating in orbit.

In the case of Alpha Eri, concider the image of three windmill propellors (two blades comprising one long object each), each on three different axis of rotation but all three move through the same proportionate directions in unison, and, being made of rubber, all three shape shift in identical ways through the torques of motions. In the case of Alpha Eri only two long strings are seen. The above paragraph modelling upon three rubber windmill propellors is true for two propellors also, if Eri's string tidals are only two objects locked bound in the torquing tide.

TAU CETI

An ovid shaped dust worm (named 'chortle') consisting of two concentric stretched rings is seen near star Tau Ceti.



A second worm, very faint, is seen spread across the rightside telescopic light halo. The 2nd worm is too faint to be seen in the original. The first view (next) is exposed by abnormal 'luminence' graphic adjustor, the second view following is exposed by abnormal quantities of 'brightness' and 'contrast' applied to the original Dss image. Neither attempt has as much clarification as the two views (red at left) and next full screen below which were done in an ad hoc array of different image adjusting means.

Exposed by abnormal 'luminence'



Exposed by abnormal 'brightness and contrast'



The oval object at right is so faint you may have to clean your computer screen to make sure you see it and not gunge on the screen. (I had to clean the screen with Windex). The faintness is perhaps a consequence if this second ovid is behind, dimmed in the substantial dusts and sundry halo material which surrounds Ceti. The concern seen in the length of writing is that I know the second object is there however all attempts to graphically clarify it unmistakably in details have yeilded only these views above and the full screen image next below. The second object is more distinct in the much higher Dpi of a graphics editor but even then no cuban cigar its details (and foreground vrs rearground location) are still too indistinct to make decisions other than that it exists. - GM.



Another 'coil' is seen below the star to the right partially masked by a brighter ring in the telescope artifacts, it is possible this coil is farther behind the star and is being seen through more musky veils.



Coils such as these are not unique, though not common. An inspection of hundreds of Dss star plates in various filters, has turned up only a few instances of visible coils.

CHORTLES AT VEGA



A similar more circular coil comprising concentric rings (the inner irregular) is seen as a distinct coherent object at giant star Vega. This chortle (lower left shown along with another of a bold single circumpherence) is in a cluster of 12 chortles seen in one hemisphere at Vega.

A third much smaller, may be in the upper left of the image at left, this small circular has not been classed herein as a 'chortle' in being so small compared to other chortles which are large and self evident.

CHORTLE AT CAPELLA

Two chortles are seen in opposed positions in orbit on either side of giant star Capella. This is a single object, shown in composite in two different orbital positions as seen between two different Dss plates. The lower right appearance (shown in pink) seems square however this may be due to the irregular twisted shape more clearly seen in profile in the telescope snapshot appearance shown in blue.

Click on image for larger version.


More Capella.

From the two different appearances it is clear this orbiting chortle at giant star Capella is not a stable body, for instance it is not constrained like a true planet, in not having a constant radius. The two images reveal a rapidly fluid topology assumed in the degree of shape change between the two different positions (pink and blue) in orbit.

A FURTHER LOOK AT TAU CETI



COMMAS AT TAU CETI



These spacially conform to standard cosmic bi-lateral symmetry, that is, the upper frond arcs up vertically (picture a rooster tail), the lower frond arcs horizontally (picture a clam shell seen on edge). The torqued bilateral configuration is how east/west polarities organize in the presence of more than one fundamental force, for instance magnetism and gravity. Bilateral symmetry is systemic in all cosmic formations, from nebulas, to galaxies.

Bi-lateral symmetry is detailed in two pages - Bilatera.htm   and   Symmetry.htm.

These fronds above, very small, are either two commas head to head, or are lint in the telescope. A second comma (image below) nearby seems more of a hit of lint, due to sone kinky linearness, unless this is an irregular loop or strand seen at an angle oblique enough to add kinked irregularity to its appearance. The fact that it has a comma head (dark vague large spot) suggests it is another dust worm in the shape of a rudimentary comma form with a large central concentration.



The commas are seen in context in the following Tau Ceti view.

Click on image for larger version.



LARGE COMMAS AT GIANT STAR SIRIUS

Two commas are seen in great clarity (and size) in a tidal pair at Sirus. Images of Sirus at Dss are missing so a more complete picture of the two commas gained perhaps from other filter plates, are not available.

At Sirus - flying commas



Next, gigantic Sirius is in the upper right, the verticle streak at right belongs to the artificial telescope light spike originating at the center of the star. This star is so large it dominates a Dss plate, its telescope diameter (much larger than the true diameter of the star) nearly fills the whole plate. A second plate, shifted to the right and dropped, was needed to get the two commas up together into a picture.

The overbright from the telescope lensing makes it impossible to guage the distance out from the star to the two commas. An astronomer with insider skills who knows the actual Sirius cross section diameter, and how the diameter fits in the Dss plate, will be able to tell the orbiting distance of the two commas.

Click on image for large version.



DUST WORMS ON PARADE

More worms

At Alpha Eri - long dust worms





Closer to the star (very near) three striking hooks are dust worms at Alpha Eri, acting together in precisely coherent unison as a tidal trio called flying fish hooks.



At Regulus, dust worms with tangles are none randomly coiled, note this is a tidal trio.



You can tell it is a tidal trio because three similar tongues vector to the upper right, the tongues are topologically identical in shape but vary proportionately in size, the smaller size is (typically) closest to the star. This trio seems more rudimentary in that all three objects are not exactly identically the same. Same-three identicalness is seen in the three fish hooks at Alpha Eri above, same-three identicalness seems to be the standard for dust worms captured as tidal trios.

Same-two worms are also common, for instance the Sirius commas (above) are topologically identical, the farther distanced is a proportionately recurred image of the smaller comma which is closer in orbit to the star.

It is possible to picture the two orbiting at the same radius out the smaller trailing, which means we have to be looking exactly along the ecliptic radius of the disk thin orbit, from a favored position of perspective.

This is unlikely since all of the trios and pairs seen would have had to have been seen along precise favored ecliptics, a co-incidence made impossible when more than one tidal cluster is seen in a picture.

For instance, in the large black and white Sirius picture further above - click for
large view - there are three tidal trios in the picture, plus the pair of commas.

In the large image (a href="siriu_c7.jif"> click again) two parallaxed trios are seen comprised of 6 small circular objects. One at the end of one of the strings is a small dot, which may be an actual planet. It is a distinct dot definatively in place to be the 6th companion in a parallax pair of trios (two tidal trios conjoined in a tidal dynamic interraction).

At Alpha Peg - a recurring pair of giant squid



Two looping strings of strew, which are also in fact image recurrences - one smaller - the other larger further out on tandem radial. The two are very dim and do not enhance well in normal image, which is why the looping bottle shapes are shown in the more chattered form of histogram, next.



In the two views above, hints of a trail of disturbance link the large squid and dark hole, if true, the two have been (or are) locally interactive.

At Gamma Uma - large hook in the halo



At Beta Per - a long strand, and hoard of ovals.

At Beta Per many small round ovals infest a region also infested with a long dust worm, the long strand ranges quite far from the star, the ovals are concentrated closer in.

In fact, in the image enhanced brown window (next) are two recurred tidal tadpoles, if the long strand kinking out from the larger tadpole is actually a third disturbed in orbit, this is a tidal trio of tadpole shaped objects.



At alioth - tidal trio of long strands, and a dark hole



At Alioth, a long string, which seems to be a tidal trio but incoherently (poorly organized). What is visible are three stands of dissimilar lengths each with bulges of dissimilar sizes and locations. Basically a rudimentary three piece topological recurrence is in view.

At Alioth a long string of ejection, giving eerie speculations as to how such a long string can stay organized in a wheel spoke orbit. Gravity waves which connect to the star and are short lengthed high frequency, may be why, if the matter in the strand has been cohesively collected to reveal the presence of the star sourced gravity wave.

The dark hole nearby (large circle in brown false color above) may have the characteristics of a very dimly glowing low radiant dwarf star.

At Alpha Eri - string of ejecta, or gravitational wave capture.


(A already shown further above) a string of snot flung as ejecta in the nethers around giant star Alpha Eri.

Recent understanding can re-classify the snot as a proto dust worm not nakedly alone not incorporated in a tidal trio. Perhaps there are two long thin worms, rather than one broken.

The picture runs out of photo near the top of the frame so nothing more can be seen but it can be conjectured that a third string is out there, making this a tidal trio.




At Aldebaran - a fling of snot.



There is an if/or proviso with the above 'worm' images. It could be some are planetary precursors, some could perhaps he planets unravelled, some might have come flung from their parent sun, some might be concentrations cohesively gathered along gravity waves.

Spectral analysis can sharpen the understanding of each 'dust' worm's intrinsic details.

Hands up fingers out fingers of one hand in a 'T' cross against the palm of the other hand - time out. These 'strings' may not be affluenta circling the star so much as possible condensation of mass in the energy field of gravity waves which are saturating deep space with the star currently at the moment drifting through the sea of gravity waves. Very long wavelengths and low frequencies define deep space gravity waves as opposed to waves which may be attached to stars and spoke outward in wagon wheel array.

Deep space seas of gravity waves are visible - jump to here to see some captured in extreme low excitement (dim) infrared Dss exposures, their presence exposed in historgram equalize.

Another star has strands crossing its sun halo and these are waves being exposed by the mass-light of material haze close to the star. Click here to see these amazing waves at another star.

Next, for comparison, Epsilon strands are at left, Ceti strands are at right. Both images are from Dss infrared plates. The Epsilon strands around star Epsilon CMA are offcam (not radially spoked to the star) and seem to mirror the blue print of deep space gravity waves saturating space through which star Epsilon CMA is currently drifting.



A significant difference in character between the Ceti and Epsilon strands are that the Ceti strands are in wagon wheel formation pointing to the center of Ceti whereas the Epsilon strands drift across the telescope light halo of the star ignoring it. In a second non compliance, the Ceti strands are far out from the star's busiest bright area whereas the Epsilon strands are close in almost slashing crossing the star.

More indepth regards Epsilon CMA deep space gravity waves is in the Epsilon.htm page.

CHORTLES AT VEGA

At Vega - chortles galore in compact unit pairs and trios.

Coils in tidal pairs are vividly seen around large star Vega.

Chortle circles in pairs at left of star. These are being called 'chortles' due to their unique coherent shape which has no description in the glossary of astronomy objects nor in any theory of objects orbiting stars circ July 2004.

Click on image for larger version.


The lowest pair of chortles, shown in green, is distinctly brighter and more clearly shown suggesting it is orbiting closer to us than the other three pairs.

The fact that the cells in pairs are smaller in the above part of the image, and much larger plus very much more distinct in the lower image below the image center line, reveals these are travelling stetched in a clump around a central spin axis for the star aligned such that the lower rim of the disk extends toward us causing objects to be more clearly seen, not so covered in haze overlays.

At the moment of the photo, the clump of coils in a necklace are stretched between the 7 and 11 oclock positions on the left side of the star in an arrangement modelled by a spinning gyroscope whose top pole is tilted toward us and pointing slightly off center to the right. This disk account is an impression, not necessarily correct. The two middle pairs are noticably dimmer suggesting that here dust obscures more.

,.,.,.,.

DOGHOUSE TRIOS - DOGBONES AT VEGA

Click on image for larger version.


Dogbones, two sets, in tidal trio lineups of threes, the first and third in each lineup are chortles, the middle in each lineup is a dogbone. These each comprise 'doghouses', They have to be physically announcing something interesting in new branches of physics involving solar orbital laws.

The dogbone trio (lower right) can be understandably claimed to have larger chortles, suggesting these are closest to us. The likeness of the two dogbones in the colorized image above are conditions of techniques used for image enhancing. In the original Dss photo, the dogbones look like this, next.



Well, in fact, the dogbones are simply not seen whereas the four pairs of chortles are clearly there, the lower pair boldest, however the upper pair's left member is bold also. Which reveals more about the physics here, in that we can know these chortles are not uniquely clustered in a clump orbiting a precise single disk plane.

The chortle pairs are not evenly distributed in distances out from the star, so also we know the chortles do not orbit a common radius out from the star in a necklace strung out one pair behind the other. A resonant ringing ring containing all of the chortles would be equidistant, or at least in uniformly arcing distance, but these pairs are staggered, one close in, the next pair further out, and so on. There are either two ecliptic rings holding patterns of orbiting chortles, or each chortle pair is on its own in a separate orbit just as if planets.

The dogbones are seen here (next) where the original Dss image has been touched with a near lethal dose of gamma correction in a graphic editor, and one of the chortles given a further smash of brightness and contrast even so it is still barely visible.

As already said, the two chortles bracketing the right hand dogbone are larger suggesting either closer to us, or these chortles are larger.

Click on image for larger version.



Even highly enhanced with histogram equalize, the original reveals no dogbones or chortles in the right hemisphere on the right side of the star, although island ovals (most are long and elongated) occur in teeming numbers, the longtitudinal elongations, their long axis uniformly pointing toward the center of the star suggests fierce solar forces drive outward from Vega.

NEXT

GRAVITY WAVES EFFECTING STARS

Gravity waves seen in infrared Dss photo of Tau Ceti, the waves are only seen in the infrared filter and are widespread, just a tiny portion of the distribution is seen, with Tau Ceti the center star in the image.

Click on image for large Tau Ceti version.



Gravity waves also saturate deep space at Epsilon CMA. In fact changes in media used to comprise Dss plates are unmistakable where the media appearance of the waves changes abruptly at plate boundries.



In the above comparative composite, the star map of each plate tells you the plates are identical except the plate with the smaller less distinct gravity waves is nudged a tiny distance out further from the arcminute position of the other plate.

3D view in the colored small virtual stereo pair above reveals up/down as well as north/south east/west components in the waves. In honesty the stereo view is suspicious with false positives however it is important to understand that gravity waves such as seen in these seas of discovery around stars are not flat out on a moire plane, instead, their gravitic seas wave and heave up and down as well as forward and back and sidways.

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