Alpha Eri master plate



Showing chevrons, dots, dashes, and ovals, two strings of ovals lower right are vectored (uniformly for each string) on distinctly different spin axis

Alpha Eri is infested with orbiters, too numerous to count, most are ovals, a trio of chevrons stands out. A chevron in the making is seen at Gamma Uma

At Alpha Eri - an unusually large family grouping of tidal trios in orbits around the parent star - count them, more than a dozen (eighteen) are identified



A host of tidal trios at Alpha Eri. Outward radial orbits uniformly rotating in spokes as one wagon wheel whose hub is the star. This is the way the zodiac and constellations orbit around Polaris the north star, uniquely in variance with the way planets orbit in our solar system going slower in orbit the further out from Sun

Each tidal trio is whizzing around in its own time at its own speed. In this regard fluid dynamic mechanics in orbiting is maintained, cancelling the north star Polaris navigating analogy. Tidal trio orbiting is different than north star Polaris navigation and with the Sun's planet family, with the difference that the whole trio acts as a tensil string with body, instead of just one body each per each in each string like solar planets and moons where any body further out acts at a slower velocity by Keplerian definitions, and only single bodies are in the dogma

In trios the kid farthest out on a radial string travels the fastest, not the slowest. Put a gob of crazy putty on the end of your finger and rotate your arm at the elbow, see how fast the gob moves

In further departure from an exact solar model based historically on our own solar system, bodies in tidal trios have orbits that are inclinated as if willy nilly, some it would seem, even polar orbits, at the least the orbiting structure at giant stars is chaotic rather than ecliptically smooth as is our tiny family of planets at the solar system

In this master plate, a host of tidals occupy the left field and none are seen in the right, instead, a chaos of ovals all pointing like splashed teadrops to the hub

If in highly declented eccentric orbits, foreground to rearfield (behind the star), tidals will be masked by parallax displacements in our camera view, which may be why the right side merely a few tidal trios that unmistakeably stand out in the backlight



In contrast, planets horde around giant star Beta Tau, dozens. Myriads of planets - small dots within a consistent size range, a few objects noticably bigger are disk shaped and perhaps are proto planets, or proto moon disks cupping busy planets



First call is the tiny dots are faults in a layer of photo emulsion. Hang up the phone and still hear my voice. The dots will appear smaller and hazier if behind the star's loud noisy solar mantle, sharper and more succinct when forward being less dimmed by the giant star's chaotic zodiac

This is the case with these dots. Highlighting them by enhancement has changed their appearance, shrinking them, while making them brighter in backlit contrast, which is too bad, but, better view is better than no view at all

At left is a portion of the master plate, unaltered from its download arrival from Dss, looking closely you will see textures in the dots which are not conducive to plate emulsifyers out of the Eastman Kodak film factory

Uniformly enhancing the whole photograph makes the dots (assumed planets) easier to see






PLANETS TRANSITING FACE OF ORION STAR ALNITAK

Transiting planets

Giant star Alnitak next. Objects such as these are offered as planets in transit across the face of the star

Each of the grey rectangles highlights a small hard dot of planet scale. The Flame nebula is at the left, the snout of the Horsehead peaks up from the bottom edge

This 60x60 arcminutes picture is of a small area of Orion. The Orion Trapezium is quite a distance away lower to the right offscreen



Click on image for full size

Two tidal trios are colored in rectangles

TRADITIONAL WISDOM

Traditional wisdom holds that the odds of a planet spotted crossing a star in transit are extremely remote at best, due to tilts and lineups in co-incidental perfect line of site along ecliptic axis, all lucky strikes are required etc

Leading edge wisdom suggests that if the star is surrounded by planets in quantities approaching a horde of hornets whirling around in different tilts including polar orbits, with no single clearcut ecliptic, transits (even multi transits) across the face of the star will be, ho hum, routine

The planets are taking a dusty bath as Orion belt star Alnitak ploughs into the Flame nebula

Alnitak's fast migratory path is seen in the light of excited hydrogen gas (red). Image by Gendler



From the looks of things the yellow Flame nebula is also migratory plowing in from the north west. Two bow waves heaved up create a scupting along either side of the smaller Globe nebula M78 sitting within a wave trough at the top of the picture

The Trapezium's blast migratory path is also seen in the light of excited hygrogen gas as the Trapezium pullmotor emerges from dense sundry matter overcasting to the left



OTHER HORDES

Flotsum and jetsum around giant star Alpha Peg



At Alpha Eri



A riot of feelings in a splattergun of gobs and ovals along the star eastern shoreline






Their existence - recurrent hard copies - are a profound revelation in
fundamental physics of cosmology

Fractal hexagram platelets are manifesting within highly articulate structures. These perhaps are matter condensed like fog revealing images of dark matter whose forms are crystals and lattices made of energy





More flying flares images

,.,.,.,.



At Canope





At Vega

An oval with glowing rim and small glowing center, serves as a good example of ovals, protos of some kind, with architecture

A planet is nearby





DOMINO RATIO EXPANSIONS

At Procyon an oval with noticable complex center, original at left is dull grey

Square box insert - interesting domino ratio (a domino ratio is width and height).
The (5n * 2n) ratio expands incrementally in whole integer digit sums
For example:
(375 * 150)
(400 * 160)
(425 * 170)
(500 * 200)
in which (25 * 10) = (5n * 2n)

A

B

C

D

In tidal trios the dominoes are not by law increntally outward. For instance a trio string incrementing as

(375 * 150) A
(425 * 170) B
(400 * 160) C


is common with B the biggest member. This may be because B is closest to the camera but this is an opinion, not certified



FLYING FLARES DOMINO INCREMENT RATIOS

The flying flares have an increment size rate of (A-B-C) but a proportionate expansion rate of (C-A-B). How this is possible is as follows:

The flying flares of Alpha Peg were cut from image (being carefully accurate to extents possible in deeming their exact sizes to cut) and each resized to a width of 100

The length of space (image height) between each object was found to be incrementally +15 per flare, close enough to indicate a domino formula - this is guestimate, the cuts (three) were difficult to make, due to blurring and uncertainties

The flying flares have a lineal spacing increment rate (A-B-C)






DOMINO SPACING

Domino ratios can also occur in the spacing between each member. In any domino ratio attitude it's outcome is influenced directly by parallax, that is, which member is closest to the camera and which is farthest away. The only accurate guide is that the member closest to a star is stationed closest to the star's surface (tautology indended because not all tautologies are tautological - many people miss insights that are self evident and need no stating, unless someone missed the insight - self evident insights can be like optical illusions, first it isn't there, then it is)

The flying yardsticks at Alpha Peg are obvious canditates for organized structural order, perhaps domino ratios. Notwithstanding that their leading edge down the right margin falls exactly on a straight line to parent star Alpha Peg

The giant tigers in the view below have been rotated by 36 degrees, bringing them into a vertical stack. The orphan corners are the trios actual alignment. The giant tigers are huge in proportion to star Alpha Peg itself, They are self adjusted to initiate from a constant leading edge (the right vertical edge), as are the betelgeuse squares whose self adjusted constant leading edges seem to be the upper horizontal edge in each square





SCALING FACTORS

These two strings of three at Betelgeuse would be good canditates for domino ratio investigations

Note - scaling factors for all of the trios imaged in this page are meaningless, to the extent that each parent star is at a different distance from the focal length
of the camera (shrink, expand - out, in)




The good news is that knowing the distance to a star means knowing a consistent uniform scalar for the tidals. Overall, either a zoom, or clicked large or original in this page, is uniformly scaled to the field depths of the Dss survey. I have not altered scaling factors in any 'original' or 'large' image shown. I have not altered width or height in any of the images anyway, just .1% or thereabouts in after the fact screen display sizes when stereo pairs are shown side by side

Of course many images and zooms are displayed smaller, a few larger, than original. What is meant is no alterations were done to any image's contents to change appearance other than enhancements (and one set of of trios rotated intact and one set scaled to uniform width) - otherwise, no orthodontal projections or whathaveyoudone

PERFECT ECLIPSES

Given imperfect constraints of imprecise exact details in image clarity, it may be possible to determine (if or if not) that trio domino ratios are within ballpark figures of being perfect

It would not be surprising to learn that tidal trios form perfect eclipse structures. That is, from a line along their radial axis to the center of their parent star, an observer looking out would see one perfectly occulting the next, which is perfectly occulting the third tidal out. For this, it requires both width, and length, plus distances apart, to uniformly morph proportionately one tidal to the next in domino ratios

This is exactly what happens in eclipsers in Perfect Eclipse structures in the solar system, including the Earth and Moon

For instance a Earth of equatorial size, then polar size, fit in a straight line along the Moon orbit, will equalize with an equatorial sized Moon, then polar sized Moon perfectly eclipsing the Sun when the Earth is at perihelion, then aphelion, of orbit, because of domino ratio proportions built into the fundamental system of the Moon's total solar eclipse

This is in keeping with straight lines of sight and tidal widths at full cross sectional diameters, that is, not parallax views

The earth-moon-sun foundations are specified in the Perfect.txt document, search it for Table 3

The right angle line of sight stated above is already found in the solar system where perfect eclipses occur directly between Mars, (looking out from Earth), Earth, the Moon, and Venus. And also Mercury (looking in from Venus to the Sun, but this is special, with the Moon orbit projected to Venus and Mercury replacing the Moon, then shifting Venus to its perihelion, mean, and aphelion of orbit here there will be a domino ration set of perfect eclipses as well, completing a stable structure in the yearns of space for the terran region's four planets and the Moon)

Perfect eclipses are detailed in the Perfect.txt page, with a bigger overview linked in the physics and Eclipse menu

PERFECT ECLIPSE ILLUSTRATED





A massless Sun projected into the orbit of Venus at Venus aphelion, mean, and perihelion of orbit, will be perfectly eclipsed by phantom moons the size of Earth, and again by the size of Venus, in domino ratio unit sum increments along the Moon's orbit starting from positions just inside the Moon's mean of orbit and progressing incrementally toward the center of Earth in orbit and progressive positions perihelion, mean, and aphelion

The unit sum increments are in the spacing between each body position along the line of sight straight out from the center of the Earth, through the mathematical date point center of each unitally shifting body, to the center of the transparent (metaphysical) Sun in the three orbitally constant positions at Venus

The resulting domino ratios in the sizes of the incrementally spaced shifted bodies in the Moon orbit are unique, they can only be (and are) the Moon's polar, mean, and equatorial radii, the same for the radii of the Earth in moon orbit, and Venus moved into orbit at the Moon. The full polar, mean, and equatorial radii of the Earth, and Venus, are those and only those that result in the domino ratios

The eclipses are perfect, that is, A=B exactly through all eclipse states (of three eclipse positions per each moon orbit body), only when full cross sectional diameters are viewed. Parallax geometry by nature cannot and does not produce perfect eclipses

Perfect Eclipses in terran solar space reveal an absolute mathematical system which can have no other resulting values

Proof is in the Perfect.txt document

RADIO STATION SIGNAL ANALOGY

The domino ratio sizes and spacing - illustrated in the Alpha Peg schematic above - are eerily similar to radio station broadcast signals. Spacing is a station's signal position along the radio spectrum broadband. The width of a tidal is the broadcast signal carrier bandwidth. And the length of a tidal is analogous to the amplitude of the signal, weak vrs strong signal strength, (100,000 watts vrs 200,000 watts)

At Regulus

The flying dominos at Regulus used to illustrate domino ratios is actually in migration, two different Dss photos (red filter and blue filter) show the trio moved along its arc of orbit. The same trio is assumed in the two photos, in that no other pic shows anything like them although the plate containing the wang version (warped) also has other tidal trios





Flying trios at Regulus are featured in a discussion about domino ratios have their own Regulus.htm page

At Regulus

The flying dominos at Regulus used to illustrate domino ratios is actually in migration, two different Dss photos (red filter and blue filter) show the trio moved along its arc of orbit.

The same trio is assumed in the two photos, in that no other pic shows anything like them although the 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





TRANSOLAR

At betelguese


A cross composite compromise between a grainy dark Dss Poss1 plate and brighter Poss2 plate with adjustment for smaller Poss1 to superimpose over larger Poss2 shows trans orbiting of square polarized shaped tidals large meaning closer to camera and squeezed together in parallax, and farther away, farther out, and much dimmer in solar haze on the other side of Betelgeuse, the migration occurring in the time span between the two dramatically different Dss photos

The two radial vectors meet along the central horizon at about 1/2 way out to the edge in the right white star section. We can infer this way that about 1/3 of the orbit is visible in the two positions of the trio, and that if we moved around to right, and up a bit to be looking straight into the point of vector criss cross, we will see the full orbit in diagram, in the meantime, given more accutely accurate composite et al it should be possible to calculate what eccentricity the tidal spoke has

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





At Alpha Peg



A Dss infrared plate of Alpha Peg is peppered with dots - a planetary zoo surrounding the star giant star with no central ecliptic plane holding all of the planets, which may include bodies in polar orbits



At the far right edge of this view a dot with a smear, perhaps a dense zodiac from a disturbing rogue planet encounter

The large dot with glowing rim may be a planetoid, or larger planet with a ring system co-incidentally seen face on



At Eta Virgini - a planetary zoo



Notice the two large dark holes one upper left the other lower right these are not accidental, holes of identical kind also appear in a small horde at giant star Alpha Peg (home of the famous flying flares)

BROWN DWARF STARS



The holes are of more or less uniform size and are concentrated along the centeral horizon of giant star Alpha Peg (immediately below)

Little to ought can be said by me regards their true nature (fab or falaxy). As the nicely colored zoom of a dark hole at left shows, their centers are filled with a dome that is textured, this is true for all of the dark holes

Which makes it possible, concidering the light filled inner domes, and glowing rims, that these might be brown dwarf stars - too small to go nuclear - too large to be gas planets, therefore cross section areas constrained within a narrow range of sizes, their gravities strong enough to keep a group attracted together then clustered in an orbit around a parent star

If techniques used to find planets by observing a star's giggle as the planet orbits, if using photos in which the dwarves are not sees, jiggle by three dwarf orbiters staying close together can be interpreted as the present of a non radiant other star in a binary system

This would not be the case if dwarfs in a cluster are involved. The system cannot be called binary, another name has to be used for a multi star system which has more than three bodies. The Alpha Peg stellar system seems to have at least 5 drown dwarfs close enough to giant Alpha peg to be within planet orbit capture, comprising a solar system of unusual kind

At Alpha Peg - mystery holes (dark holes)





Also, a recurring pair of giant squid

One of the rectangles contains 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 histo 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 Pollux



Objects such as these - white, bright, tiny, hot, stretched, are offered as comets. Nothing else can explain them. To see such brillient super hot whities in film media that is dull and weak at best, is too much of an anomaly to assign to plate flaw or image errors, the logic of 'error' does not compute, these are comets close in with tails crossing the face of the star. Notwithstanding the old boy's lint - stark white

At Pollux



Planets (dark) comets (white)




CONCURRENT DOUBLES

At Aldebaran

Note - tandem tidal trio at left similar to string below the light spike centerline, gobs, except, 6 gob tidals in total are travelling around together radially straight outward from Aldebaran



A string of doubles like this, is probably where two strings in radial orbits linked up, merged, in concurrent tidal forces. Doubles are common, doubles in strings sailing along side by side may also be concurrent consecutive recurrances in that all six in the cluster will be identical in their dynamic shapes, which (if correct) uniformly morph in ballet as they orbit



At Sirius



A comma tandem pair - or tidal trio

A tandem pair (just two). There may be three. Compass span (spread two fingers and check it out) between the two commas is identical to a third object seen in vestige only, hardly noticed perhaps the star's small lightbulb overlaying the vestige is enough to wash out the third comma

The commas are in company with a tandom set of tidal trios (two trios in parallel, except the sixth tidal, in position (b3), has a planet instead of a tidal. Here it appears a planet (solid dark dot) has joined a trio, forming partnership with two tidal shape shifters in a lineal string





At Sirius the tandem trios are in company with another tidal trio. Click on image for full scale



At Sirius



At Sirius



Sirius is a bellring star - at the time the photo was taken, Sirius was oscillating







Very elongated island ovals are seen at Sirius,
two shown at left, an extended centerhot is
in the pink island oval, centerhots are
typical in island ovals










At Alpha Cassiopeiae, obviously a celestial artifact, a star may be superimposed giving an odd indent extra that is not real, except, no light spikes the bright hottie seems to be on the edge of the deep dish oval. The object is officially known as Lkha 198



TIDAL TRIOS AT BETELGEUSE

Click for large





At Schedar



At Epsilon CMA



The slash next door is a plate flaw, a section of the flaw highly amplified in showing the trio

THE EXISTENCE OF TIDAL TRIOS

The existence of tidal trios in straight lines (in cohesively sustained outward orbits around large stars) seems to be a big discovery of Cosmicastronomy.com (formerly Visitastronomy.com now electron history). No one seems to have picked up on tidal trios yet, so far, (circ Jan 2004), even though their existence is a mind blower to Kepler and Newton gravitational mechanics purists whose's careers rely on the continuing existence of Keplerian Laws as historically and emphatically understood

See the Coupling.txt file for demolishment of standard centuries old preconcieved ideas and assumptions regards Keplerian Laws - mass is not a factor in Keplerian Laws. Get it in one, don't waste time disputing the obvious

Mass relates to tugs and pulls yeilding eccentricities, orbits themselves per se are a fluid dynamics interface with the Sun, having nothing whatever to do with the distribution of orbiting masses

Another way of putting it is gravitational masses in orbits are a settling of accounts after all mutual body gradients and interferences have settled out (or are being settled). The plain fact is any mass can exist in any orbit, for instance Hubble telescope moved into the orbit of Jupiter will orbit the Sun at the same velocity as Jupiter (Hubble will have the same spin/orbital period/velocity Keplerian relationship as Jupiter)

There is no condition of mass required to be a certain weight to orbit along with Jupiter. Witness the trojans, two asteriod and dust clusters on either side of Jupiter in equalateral triangles at equal radius from Jupiter and from the Sun, no mass whatever is required for the instance of Trojans, the Moon has trojans in equalateral triangle positions, so does the Earth. No mass of any set amount is required in order to orbit at any given distance from the Sun

Another tidal trio at Dubhe, vectored south/west from the giant star Dubhe offscreen to the right. The trio is dim and required severe enhancing to expose it in the master plate from Dss



At Alioth



Two tidal trios of dominoes, torqued by magnetic inductions, in uniform synchronized rotations in polar plane long axis (spin axis) eccentrics, chorus girls who cannot do otherwise but obey an invisible choreographer named allah



At Saiph



Two orbital planes (like two hat brims) the two magenta trios vector straight through the star center, the two trios in grey also. The grey trios may perhaps be orbiters in a tight radius close to the star since both trios are muffled in the star's overplus lens halo

The camera is looking along the edge of the orbit disk in the grey pair. Hypothetical - suppose the upper left and lower right magenta pair were in orbit together, the pair axis crosses below the center horizon of the star, yeilding only one interpretation, that the camera is seeing tilt (the same off-horizon tilt which lets eyesight see the rings of Saturn)


More at Saiph

This comglomerate, captured upper right near a POSS2 blue filter image of giant star Saiph, is offered as an object (not a plate flaw) due to the fact that it is both bright black and opaque suggesting mixed medias in space not emmulsions on film, and the dim is a ghostly recurrance of the bright



At Alpha Phoenicis



Orbit disk (east side - west side) its tilt seen at slant, off center from the giant Alpha Phoenicis mid horizon

At Alnilam





Orbit disk (east side - west side) its tilt seen at slant, off center from the giant star Alnilam mid horizon




CHORTLES AT CAPELLA

Main page for Capella chortles


Chortles - round, tapeworm coiled inside - orbiting giant stars





At Capella



In a very cluttered solar system playfield around giant star Capella are several tidal trios and tidal pairs whose existence requires extreme enhancing means to expose, in the dull hazy plates resulted by Dss

A chortle identified in a stark contrasting dark square is in orbit. Another position of the orbiting chortle is also seen, the chortle (and chortles) is the subject of its own page - Hark.htm whose discovery (the migrating chortle) triggered a maniacle search through a list of the brightest magnetude 50 stars looking for objects of interest. This (the Trios.htm) is the result, triggered by the accidental discovery of the migrating chortle mid January 2004



The migrating chortle at giant star Capella, from two different Dss plates - in the time period between plates the chortle has migrated from one side of the star to the other

Click for Hark.htm page

Two planets close together, a proplyd (proto disk), and a flaw, in a Dss Capella plate



At Capella, other signs of active star with orbiters status



CHORTLES IN TANDEM



The chortles are coherent, which is to say, four pairs, each on a radial axis vectored to the center of the star, stand alone. Also two tidal trios each comprising two chortles with a dogbone in the middle, vectored in radial orbits to the center of the star

CHORTLES IN TIDAL TRIOS WITH DOGBONES





At Vega there are no chortles out there on their own, uncoupled, alone, unnattached to another's gravity. It means to say chortles are another form of star orbiting entity

No chortles are seen on the right side of Vega at all. This may be because the chortles seen on the left are out in space toward the camera, others on the right will be behind the star's substantial telescope interference caused by the star's substantial sundry matter haze

At Capella

Different Dss plates (Poss1) taken with a different telescope at a different time show no other signs of the chortles, either different spectrum frequencies were used in the two sets of plates (Poss1 and Poss2) or different medias which captured different gradients of dimly subtle information

Dss Poss1 Capella plates reveal more trios



At Mizar



Ovals in the eerie glow of two stars in telescope exaggerated proximity. The content of this picture can be used to certify that ovals exist in solar system regions of giant stars



A slew of island ovals at Vega, all pointing to the star, all with hot elongated centers

Island ovals are extended, in difference to merely ovals which are amorphously round, island ovals all have long axis generically pointed toward a star's center horizon

At Beta Car



A galaxy up there, not recognizable at first sight, it could be one of the small collection of galaxies bright enough to make good photos amongst the (______ input number) billions of galaxies out there within camera range

At Alioth



Also at Alioth a long string of ejection



The dark hole may be a brown dwarf star


A string of snot flung as ejecta in the nethers around giant star Alpha Eri (left)




Other strings of flung snot have been spotted around, in this case snot orbiting Aldebaran

At Regulus

A string of snot flung as ejecta in the nethers around giant star Regulus.htm




At Pollux



Two banana boats (amazon river canoes)

HISTORY

Chortles, rubber bananas, flying snot, island ovals, commas, chevrons, dominoes, gobs, ovals, flying flares, dogbones, wangs, saddles, dark holes, twinpairs, all are tidals, which can occur straight out from their parent star travelling in unison revolving around at faster velocity the further out, in radial orbit as the spoke of a cartwheel, in strings of three or two (which puts new meaning to the words 'string theory')

'Saddles' can be used to generically describe ovals, island ovals, dominoes, and rubber bananas, any object gliding along in tandem with others of similar morphed, proportionate, and inclinated shape

The rule is, smaller closer to the star, size expanding according to distance out

The strings may not follow identical axis in radius to orbital circumpherence each tidal is in a different plane and hauls charlie on each other tightly enough to keep each tidal locked in physics which does not waver or wobble side to side in orbit

Tidaltwins are common, (but not that common) and have no single pattern, two close together triple spaced (three times two equals 6 tidals) all on a single radial out from their star. Two lines of three each in parallel, all six again of identical kind, are another variant of tidal twinpairs


Note - curiously, there are oval stars in the Aldebaran horizontal zoom at left, click on it to see no oval stars so oval stars seem not skydrift in the telescope, excessive zeal in image enhancing is the cause

Tidal trios seem to be everywhere. These in this page were gleaned from among the nearest 50 high magnitude bright stars most are bright because of giant size, better telescopes reaching further out undoubtedly will encounter more, and more, and more, kaleidoscopic zoos of fantastic objects orbiting giant stars in pairs and trios

Dss plates photographed nearby giant stars very large in the viewfield

Some plates have them some do not. Poss2 plates for Canope yielded only one tidal trio, the Poss1 plate was filled with ovals surrounding the star in a plentiful horde, no red or blue filter plates were availabe for the Poss1 survey for Canope

In other words there does not seem to be a definative or predictive rule for image yeilding Dss plates, except, blue filter plates seem to hold more information, but not as a rule, just that it is worth looking at every available plate for a star. Infrared plates usually are barren of tidal trio or island oval contents, every so often an infrared plate kicks in

At Polaris

Mottling textures the star's inner and outer regions. Perhaps it is because Polaris is a slightly lopsided star. Any Dss plate of Polaris shows mottling, take your pick from the Dss home site



A telescope's light ring around an object such as a star can amplify signals within the ring (a natural amplitude reostat - not a magnifying glass - available to astronomers and apparently not in use (circ Jan 2004)

Next is another enhanced version showing the slight lopsided inner fire, and amplified mottling in the light ring



Being lopsideded may not be enough, suppose an intense magnetic field is present as well, rapidly rotating, there may be generating effects in field forces yeilding matter concentrations A rotating powerful magnetic field animation around a star (from undocumented source in download from the Internet) casts insight on how field forces may effect matter in the field force's neighborhood

However, the mottling may be due to ceaseless relentless mixing by brown dwarf stars in orbit around Polaris. Two are easily seen, one to the lower right, a less visible smaller dwarf to the lower left spotted in a different Dss plate





Brown dwarfs in a narrow bandwidth range of small to large sizes




A histogram of a Polaris plate (above) reveals a number of dark holes most are small one obvious large dwarf forms a hole against rearlight in the lower right. Click on the image for a larger view

At Merope

The sundry matters between stars in the Pleiades are also polarized, not so much in photon light phasing instead the drifts themselves are focused in bands which mutually face other stars at right angles

POLARIZED PLEIADES GASSES

The moon clouds are clearly layered in polar planes which mutually face each other's stars at right angles. Moon clouds simply means the drifts have a look and feel like clouds which drift across a bright full Eearth moon

Giant star Alcyone is looming at left below. Mottling is a noticable ingredient in the inter star media of the Pleiades where constant motions in close quarters have caused giant stars such as Alcyone to reformulate inter media sundry matter into tiny uniform sized mottles which concentrate in drifts where denser medias have gathered, and along boundries between media densities






Polarization is seen where cross hatch bands amongst stars face each other at right angles




Brown dwarf stars are assembled in show and tell here

A collection of dark holes assembled four years ago (circ 2000) in a document titled Darkhole.htm were thought then to be dark galaxies and proposed as such, in that many exceeded the size of nearby galaxies in Dss black and white plates

A mystery, then, was a tendency for the dark holes to be more or less of a uniform size, which turns out to be correct in the light of brown dwarf stars being present in the images

For instance here are two spotted adrift off the western flank of super spiral galaxy M101

In light of todays dwarf star orbiters captured around giant stars, the earlier Darkhole.htm document is an excellent reference for more brown dwarf stars, including many captured by chance, drifting in the Milky Way intervening between here and galaxies even far distant

I have taken a chance in assuming brown dwarfs not plate hots or dark galaxies - dark galaxies suspicious due to uniformity in sizes - dwarfs suspicious due to large systemic error overlays in deep fields - plate hots suspicious due to texture with glowing centers and glowing rims

CLOCKSTEP TIDAL TRIOS AT VEGA ANOTHER TIDAL TRIO AT ALDEBARAN

TIDAL TRIO AT ALDEBARAN PARALLEL TIDAL TRIOS AT BETELGEUSE

TIDAL TRIO AT BETELGEUSE ANOTHER TIDAL TRIO AT BETELGEUSE

TIDAL TRIO AT ALPHA ANDROMEDA TINY DOT MAY BE HARD PLANET IN TIDAL TRIO AT SIRIUS

DITTO TIDAL TRIOS AT ALDEBARAN GIC GALAXIES IN CHAOS

TIDAL TRIO AT ALPHA PEG HARK PLANETS PLANETS1 PLANETS2 CHORTLES REGULUS DWARFS

TIDAL TRIO AT REGULUS TIDAL TRIO AT SIRIUS

TIDAL TRIO AT REGULUS HAS MOVED TO ANOTHER POSITION

TWO TIDAL TRIOS IN ORBIT AT BETELGEUSE

TIDAL TRIO AT ALTAIR

FIERCE FLARES CAPTURED ON FILM AT ALPHA PEG

ANTENNA COLLIDING GALAXIES RADIO IMAGE PROVES LONG ARM AND ORIGIN NUB

Here is a planet floating around in the center of the Omega nebula, spotted by the Hubble Acs camera



Reference pages

Pages   Flying.htm Hark.htm Regulus.htm,   and   Ringling.htm,  

Pages   Planets.htm,   Planets1.htm,   and   Planets2.htm, these three pages prepared in 2001 and 2002, deal with stars and their orbital families. Planets.htm is the main page, Planets1.htm has more detail on certain stars, Planets2.htm contains redundancy (as does Planets1.htm) but usually the same material is in a different context or theme.

Brightest stars list 1. This includes greek names, which are the main name choice in Dss archives. Star names given in their original arabic are often not found in Dss.

Brightest stars list 2 - no greek, arabic and common are the names, many of the starnames used for this list are not found in Dss archives.

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