INDUSTRIAL STENGTH ASTRONOMY
Lens effects effecting star appearances may hold secrets about some stars
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ABSTRACT
Do you think I can find it? I have searched all of Hubble Stsci sites
and all of APOD under the one umbrella word 'star', and my best image
directories, and have found naught. I know the star is out there because
I can see its seething smoking trail in mind's eyes but cannot find it.
If you have an image in your archives, a star that is heading west and
trailing an awesome vapor trail of smoke, you may very well have the
very image I am looking for.
Otherwise, be patient, the star is out there, one of these days I might
find it, just might, find the image of it. And then I can show it too you
as a final clincher that stars smoke, and travel, and when they leave
trails, these can become known as 'jets'
and can cause astronomers to scratch their rubbery heads and sharpen
their pencils the moment they are discovered scratching, but all they
are are stars that leave smoke trails, just like jets flying high in
the Earth's atmosphere.
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Click for Pixie Dust star trails from a galaxy
Two small stars dragging matter from a larger star in the Pleiades.
Another star, to the right, has some small wiffs of matter trailing
trailing to it, too.
In fact, the matter drawn between the two small stars is directly
faced to the slightly larger star to the right in a T cross formation,
that is, at a 90 degree angle, as is the drifts on the North/east
backside of the larger star. This is very significant. Read on.
NEXT PICTURE PLEASE
Right angles blasting.
Everything about this scene at Merope (midscreen) at the Pleiades, is
the big star at the left is blowing matter
into drifting filaments both at the star upper right, and Merope at
lower right, the filaments are being blown into lanes at right angles
to the direction of the blast from the big star. Take a look again at
this picture and tell me those lacy filaments are not laying at exactly
right angles to the big star at the left.
Click for larger green version
NEXT PICTURE PLEASE
The lacing in the upper right star is being bent in crescents toward
the smaller star immediately above it to the upper right. The lacing
at Merope (lower right) is slightly bent in crescents around Merope
itself. Click on big image next for slightly larger view.
Broad bands in rectangle patterns are
difficult to explain. Image patching comes to mind but merged stereo
overlay view says otherwise, that the rectangle grids have been formed
in the Pleiades mobile star tangling factory.
Unusual mottling in Pleiades Dss image may be
Jupiters by the teeming thousands, a risky suggestion by GIC but one
that needs to be made if the mottling are collected Jupiters concentrated
in drifts and bands and around
certain of the Pleiades stars, and outlined around increased halo
radiation from other stars shining within the Pleiades space cross
section.
Is it possible that at least one of the big stars originally there
has been torn apart or that all of the stars are loosing clumps of
matter to gravitational, tides resulting in a gradually increasing
concentration of Jupiters.
(The following long paragraph is also in the GIC
oscillating stars page).
When you click the link to mottling in
the Pleiades 7 Sisters at large, you will see so much mottling it is not
hard to assume another giant star somewhere a long time back got too close
to two (or more) other giant stars and was ripped apart by gravitational
tides, instantly dissolving its centerpoint cohesive gravitational power,
allowing its matter to continue to be shredded and ripped apart,
eventually to be strewn more or less evenly distributed in similar sized
gobs around the right side of the Pleiades, and to be concentrated in the
diaphonous drifts of Moon Clouds,
which themselves (the Moon Clouds) may have then been an input
contribution from one main star torn apart, rather than gradually
captured into intermixing Moon Cloud drifts from sundry space matter
at large through which the Pleiades stars are drifting.
If you got the above sentence in one, you have got the whole picture
regards existence of, and source of, the mottling. Perhaps. I may be not
right about the source and success of the mottling. But, then again, I
think I am correct. It is a logic problem, A leads to B, which leads to
C, which concludes at D, ergo, such wide spread mottling in the Moon
Cloud drifts of the Pleiades are a giant star's remnants being well
mix-mastered by cross polarization energy blasts from the remaining
giant stars, causing matter gobs to be pushed and coherced into the
drifts, where the density of the drift's matter causes the pushed gobs
to slow down and concentrate. This, is all said in lieu of the another
(more lazy) interpretation, that the mottling is nothing else but flaw
elements in the photograph.
The idea of gravitational tides can be taken one step further to suggest
that planets are formed in local vortices when stars encounter each
other close enough for their coronas and halos to interact, rather than
planets being formed per se from accretion disks, planet formation can
occur in very swift short term action rather than long slow drags of
time as protoplanet accretion disks accrete. For instance Earth and
the solar system planets may have arrisen when the Sun (assuming)
tangled with another passing star way back when. Just a suggestion.
Binary or multiple star systems are self made for planet creation,
except, the star system needs to pass through denser material drifts
to have something to vortices together into planets if there is not
enough matter hunkering around the multi-stars per se for vortices
(local small intense spins of gravitational tide) to do the work.
Just a suggestion.
When this next piece from the Pleiades is viewed full
size, mottling is seen everywhere, perhaps image flaw, it is also
possible that planets by the teeming thousands of Jupiters are thronging
the mantles and drifts. More on this interesting pleasing subject is
here.
Visual polarization of light is witnessed in this special Malin view
of the Crab nebula. It is possible that in the above broad bands with
straight edges and 90 degree orientations, we are looking at visual
polarizations of matter.
Speaking of stereo, Merope in the views further above is closer
to the camera than the other stars.
A good jolt of green has manifested more of the faint filimentations
around and between now bleached out stars. For instance it is clear
(it seems) that Merope is sweeping up from the lower right but, what
is/was the cause of the attached filiment clump at the lower right of
Merope, which is much closer to the camera, unless perhaps ... ran out
of ideas.
Click on big picture for slightly larger view.
Gently curved straight line drifts seem a way of life in the Pleiades,
that matter is being shifted around in straight line diffractions as if
under the influence of strong polarized bands of ionnizing radiations,
which may help explain the rectangular grids pointed out in a green
toned image further above.
Click on big picture for slightly larger view.
These pictures are from 2nd generation (blue)
views from Dss. The 'dew drop in' effecting the large original
is what, dew from the morning mist on the lens, beer in the photo
solutions, weird effect - never seen it before in an astronomy image,
so wierd that I have begun to wonder if we are looking at teeming
thousands of Jupiters, and stars
with small, dark, disks or halos.
NEXT PICTURE PLEASE
The 'chevrons' appear to be caused by an intermix of two cross-fluxing
fields of polarization radiation from the two nearby stars (to the upper
and lower right) whose fluxes are striking the big star at the left in
right angle cross mixing jiving the Moon haze in front of it into
chevrons.
Closeup of Chevrons in a Hubble view show
the points actually focus between the stars, rather than straight to one,
or the other for instance the chevrons do not point straight to Merope
which is what is suggested in
captions which accompany the Hubble chevron image. Me at GIC had
inferred shortly after the Hubble image came out, that the shadows were
wrong for the chevrons to be accountable as a Merope phenomena. Now, I
deem them direct cause in polarization blasts of ionnization from two
nearby stars acting together, Merope being one of them.
Merope, one of the seven sisters stars in the Pleiades, glows diffusely
behind a wrap of wisteria drifting over its face. A Dss
original of Merope enhances to produce the following rather detailed
view. Chevrons, shown also, seem to be the jagged formation in the lower
left of the frame in this large Dss view.
NEXT PICTURE PLEASE
CROSS THATCH
CHEVRONS
CLick for more Merope chevron images.
Another Merope view, in blue (source unknown), shows an irregular
shaped mother star but the irregularities in shape may be interference
caused by the whipsy overlay.
Now that we understand how (though not why) bands are working in the
Pleiades as functions of intense polarizing fluxes causing filamentations
to coherently organize in right angle planes, we can see the same in
stars such as Antares,
Rho ophiuchi, and
chamaeleon.
I use the word 'polarization' in lack of any other word to indentify
the phenomenon of filamental coherent ordering.
BROOMSTAR BOOMING IN WITCH'S BROOM NEBULA
This bright blue star, dominating the scene
in the Witch's Broom nebula, is a little
hard to comprehend. Obvious light spikes from overbrights in the
telescope radiate out in the classic cardinal points of a compass
4 point flat screen array, however some material seems very highly
amplified lying under and issuing from within the ray vectoring to
the South/east.
What has apparently happened, is the South/east spike has co-incidentally
landed exactly upon one of the short thin flare lines, two more of
which continue in side by side parallel close together northward, the
third short bright flare dominant enough to overpower the spike ray,
which is why this spike seems to be issuing from an active source in
stereo depth below the flat faceplate of the other three spikes, the
active source is there as a flare, continuing then is the false
light spike ray.
Probably, (almost certainly) co-incidences like this are seen in other
flashy star images but in this case, there is no mistaking the unique
co-incidence.
The Witch's Broom nebula is the far west end of the larger
Veil nebula, and the bright blue star is 52 Cygnus.
Here next is proof that it always pays to double check. A Dss view
of the star 52 Cygnus reveals that the flares may actually be fingers
of the surrounding nebula (passing over through or behind) the star's
halo.
This is a Dss 2nd generation (blue) image.
This a Dsss 1st generation image showing
a smaller halo and more sundry nebula filamentation in the halo.
However, a basic color tone enhancement (not a histogram equalize
version as are the two images above) does not support the fingers in
the tongs are nebula theory, in that the tongs (flares) in the blue
colored view above are not seen in the Dss image, which means, either,
that the tongs are star flares captured in a certain strong color, or
are unseen nebula filaments. Hmmm, like I say it always pays to double
check, now I am more confused than ever.
To see effects of strong light on a camera lens, what better than
a camera pointing straight at the Sun, on the
Moon. Try and count the number of lens effects - parallel rays, light
halo, recurrent optical creation (at right), diffuse haze overcast,
seeming lopsided disk, and so on.
It's a jungle out there. You astronomers think you have mapped the skin
of the pizza for the Universe, guess again. Wait till you see what lies
under the layers of roasted cheeses, throughout the following images.
Similar material to this page, in context of proto disks around active
stars, is here.
THE FLAME NEBULA
These star images from Ngc 2024, are included in another context dealing
with cosmic rays that don't explode in the
atmosphere.
Hubble
red star with telegraph dots and dashes.
The hot bobs in the red rays may be
planets. Check them out with a compass.
Starry stuff in a region called Aurigae has
a blue toned star with two telescope magnification rings around it, (an
inner and outer ring) notwithstanding, enhancement and zoom of the blue
colored star image reveals little of the kind of stuff we are looking for,
that telescopes are capturing flares and corona ribs around distant stars
and those images that are detailed often show very distorted giant stars,
indicating fierce dynamics are effecting such stars. It is like looking
at our Sun having psuedopods from oscillations in its sides extending out
past Venus.
Secondly, why do stars, including our Sun,
have coronas formed in radial rib
array patterns. Why such finely orchestrated rib arrays. Astronomers
have seemed to take coronal ribs for granted, for instance every good
image of a total solar eclipse has them, but, where is the literature
discussing why such ribs form, and where is the arcane literature for
super pros only, discussing why such mighty magnificent rib patterns
form around giant stars, for instance Rigel, next.
Rigel has its own page in GIC.
Notice how many questions I am asking, - not without reason - it is
because, of course, I have no answers, but do suspect that coronal rib
formations have a great deal to do with a star's intrinsic gravitic
blueprints - these are how gravity waves made of energy effect a
star's - made of mass - behavior.
Two fields of study, both completed by a moi in the early 90's, and
now waved in your face in GIC, discuss gravitic manifestions amongst
the planets in energy forms without inertia - no mass, and an interface
between special and gravity relatively so tightly interconnected that
some planet masses can be calculated directly from knowing the mass of
the Sun. These two studies are found in the
eclipse.htm index, energy forms without inertia found under
'Perfect Eclipse' topics, and interface relativity found under
'Interface Relativity'.
Obviously I am fishing with the Pope and the Ayatolla when citing
the above physics reverences since both conclusions have been reached
without knowledge of why they happen, in other words, I was not able
to ferret into the understructures to discern cosmic laws as to why
these above cited manifestations happen.
Above, a smoke trail from the Witch Head nebula to the small star at
top. Dim in this highly enhanced scan from
a long since discarded magazine, the spreading vector from the star down
to the nebula does clearly state that the star has left a smokey stover
dragging trail showing its path of motion
as it leaves the clouds of the nebula.
The pale nebulosity is the Witch Head nebula, featured at this APOD
site with
image rotated left by 90 degrees.
A large star shown green in a VLT image has what is now (in GIC) seen
as characteristic flare and solar corona rills, unfortunately VLT images
are not know for sharp details and this next, a star in a VLT image of
Ngc 3603, is no exception. To get around this handicap, 3 different
GIC enhancements are shown, each casts a different shade of subtleties
on the star's irregular shape and its off balanced excitement effects,
each view is shown at almost twice the size of
original since the original's details are too hard to see.
Of note are wands arcing out in dim radiance to the left pointing
upward, these wands are not unlike wands banding out around Antares
and Merope except in this Ngc 3603 star the wands are not well
developed as seen in this VLT image.
A short eyestalk can be seen woggling into view in the upper right
corner above the star. There are other eyestalks in this VLT image.
The little woggler is shown below in two closeups since one closeup
at one size is not enough to make the eyestalk as plain as day.
Notice the very small tonsil stiking out near the top, in these next
two drastically reduced (greatly magnified) images from Ngc 3603. This
is the eyestalk woggling out, mentioned above.
A PLANET, IT REFRACTS RATHER THAN GLOWS
This small spherical object, seen in highlighted window, may be a planet.
It is visible not by glow but primarily by refraction around it, ergo,
either a small subnuclear star, or a planet.
This small object in a Gemini
South telescope picture of Orion.
Trapezium, may be a wandering planet,
whatever it is, it is seen more by refraction than by glow. This is
definatively an object out of synch with its background and surroundings.
Eeystalks are the subject of their own GIC
page.
A clearcut eyestalk poking out in the open is extracted from
this high gain VLT image, the eyestalk is dark and
needed vigorous enhancing to expose, this
eyestalk is similar to the head of a match, such as seen in an
Orion Hst image, and also floating around eerily on its own detached
from anything visible in an image of the
Trifid nebula.
Note also in the next image a short red ray extending west from the
eyestalk, GIC has chosen to call this the
Red Slider ray.
The short staight line heading east either is, or isn't. A similar red
streak has been seen in an Orion photograph and is so noticable GIC has
given it the name 'The Red Ryder Ray in Orion'. The
Red Ryder (if real) is a blazer, rather than a laser ray.
Click for more on the nature of 'blazer' rays vrs lasers.
Of particular interest is this 'ray' (if that is what it is), it seems
to be coming straight from an eyestalk. If this apparent combination is
correct, it throwns a whole new light on the nature of the eyestalks. If
the ray is coming from a star, it throws a whole new light on the nature
of stars which can fire rays. If the ray is firing out from overcast (to
the left) and striking the eyestalk, think about the physics involved
in THIS, as a phenomenon. Shades of dynamic local black whole overpluses
are looming large in this picture, either way, no matter which way you
look at it, no matter which way.
CLick on left image for large size.
The location of the red ray is indicated in the upper right red box in
the next image. Another eyestalk is indicated in the lower left red box.
Ps, near the lower left eyestalk is a flare (like a rubber glove)
sticking up. It has been suggested elsewhere in GIC that flares like
this might be novas or super novas which
burst forth into the open, the nova explosion itself occuring behind
the scenes in the body of the nebula itself.
When the Vlt original is mightily enhanced,
countless stars emerge out of the gloomy dim darks, including some which
seem organizes in a rosette pattern swiring to the right, some stars on
seeming migratory tails as if heads of comets all being horded in a
certain direction.
Merge the two images together by eyesight for 3d stereo, which reveals
the stars are not all in the same plane so some of the rosette pattern
becomes dissolved but there still is a complete bias among many of the
stars to be poking up and veering in a swirl to the right.
The starry rosette was observed in the following image, initially
indended to show a possible nova flare bursting into the open in
the lower left corner, see how much the image has been mightily
enhanced particularly in red to reveal the starry rosette shown above.
Stars with migratory tails have been
noticed in Orion.
Elongated stars (or globular clusters)
have been noticed in the outer gas shell of small distorted elliptical
galaxy M110, a companion of Andromeda.
Novabursts breaking free of sundry matter surfaces seem to be in
the picture next.
Upthrusts like this (next) are suspected of being explosion remnants
which have burst the surface of dense sundry matters containing them.
See next image pair. A really good example of a nova or supernova
remnant which has been smoothed out as it plows through matter then
bursts the surface can be seen
in the Eagle nebula.
I do not like such poor quality pictures as this above. It is like
a stamp dealer's lot whose very valuable stamps suddenly seem
worthless if a very poor quality stamp is added to the lot. This
stamp rag is shown above because outthrusts were spotted, thought to
be novabursts, and it is always better to have an example of what
novabursts mean rather than merely to try and describe them with
words plugged by a mouth full of bubble gum.
A STAR IN THE CONE NEBULA HAS PUPPIES
A single star in the Cone nebula has been
studied in closeup by telescope and found to have 6 smaller stars in
proximity, five stars are easily seen, the supposed sixth - according
to astronomers who publically released this image - is in one of the
right hand telescope struts.
Cick for Cone Nebula page
And now for the Galaxies In Chaos circus of smokey stovers. First is
the Maharaja, an image by Cocodile Malin of
Australia from way back when.
It has foam pouring out of its mouth, streaming backward.
Next, the Wool Knot. A tantalysing glimpse of a fiery star in the
Vela supernova remnant, blue cilia seem to be wiring out all around, but,
the original, from Autralia, is enhanced to about the limit and there
is little more I can do with the image except hook a few more AU's of
cilia around the star.
The intent is to see the cilia around the star. Since the image is
complex, an approach has been used using color tone combinations,
each pair merged together in overlay by eyesight, the combinations
of the different color tones reveals just enough more about the
cilia to make the effort worthwile.
Incidentally, astronomers are careful to point out that stars do not
burn, for this they require oxygen. Fiery stars are their nuclear
processes gone array or unstable, or a star travelling fast through
media.
NEXT PICTURE PLEASE
I have been hot on the trail trying to determine if that little red
kernal projecting left from the large radially radiant (blue) hotmass
is attached to, or has been fired from, the blue star, but cannot tell,
this
Gemini south telescope image can only go so far in image enhances
and it seem so far is not far enough to be able to tell, one way or the
other, if the red kernal is a popcorn firing from the large blue hotmass.
The hot star is easily seen toward the lower right in the Gemini
south infra red original.
Next is the Rustifarian Haircut. Originally
thought to be a proto star at the end of a long jet, serious scrutineers
taking closer looks than would Olympic officials looking at the last 1/100th
of a second to decide the gold metal, decreed that a chance overlay has
placed a star located far back beyond the tip of the jet.
However the GIC editor general and chief engineer extraorinary and all
around expert who knows how to use a chair at the computer, in a few
moments cooked up a version of the Rustifarian Haircut that has more
details in unstable activities at the star, and completion of the main
jet to the star itself. Even if no popcorn kernal at the end of the jet,
at least we know the starjet is real.
Suppose, just suppose, this star someday is shielded behind haze, and
the popcorn kernal is really there and still crackling at the end of
the jet, this could suddenly become very much the look and feel of
some of the smaller dark shafted 'eyestalks' under study at this
GIC page.
STICKING FINGER STAR
An elliptical large star, yellow colored, has shown up in a VLT image
of giant spiral galaxy Ngc 2997, the star
(if it is a star) rended by telescope overplus, and is only partially
captured, nonetheless what is seen shows elliptical disks displacing to
the upper left around a central slightly irregular orb. This image is
good enough to add to the GIC demonstration gallery of basic large star
behaviours.
THE 'STICKING FINGER FILTER' SOFTWARE
There must be some technique by which astronomers can stick their
finger over a particular bright hot spot or intense nearby overlaying
star thus knocking it out so that what is real in the image can be seen.
I see something like a digital software that scans for overbrights
and winds down their exaggerated photon frequency inputs. Having
done programming in the past, though nothing so elegant or, even,
run on mainframes, I can see that 'sticking finger filter' software
would not be hard to do.
A dss image shows a hot spot on the limb, with star struts from a
telescope, more or less stating that the fierce yellow globe above is
a chance overlay star from the Milky Way. In any case it is a fiercly
energetic irregular (oblong shaped object) the oblong distortion to
the upper left just barely indicated in the image fraction as a
possible disk. There may actually be a kernal at the end of a left
aimed spike, the little green dot at the end of a yellow spike seems
attached to the star and not a part of the galaxy as a chance very
co-incident superposition, but, then, who can say without a closer
look, focusing to the star rather than to the galaxy.
Click for more Ngc 2997 images.
Next The Lost Horizon, a atar called Antares
is a star so smokey it can hardly be seen processing more, as we speak.
There is a star out there, so smokey it looks like someone has tossed a
shiskabog that has caught on fire on a barbeque.
A Dss (60x60) arcminute plate of Antares shows the same criss cross
fireworks around the main starbody.
The above have been light amplified by histogram equalize. The
telescope's light circle around the star can be seen in the next,
less light amplified, version.
1d
A Dss closeup image of Antares is met with a telescope circle however
star effects can be seen amplified within the circle.
Another smokey star is Sigma Scorpii,
the red star to the right in this image, and
a subject by name in Dss plates, which show a
large star (in 60x60 arcminutes) with a narrowing smoke trail
dominating the image into the rear above, and a foreground plough
into matter causing a heat shield wave front at the lower front of
the star.
Now for the real description, a real Dss mess, telescope lens radicals
all over the place, deep space densities so different it was almost
impossible to composite a make-piece with a large representative
deep space area around the star.
Scorpii, from Dss, is an interesting place, no cattle herding in a horde
of planetary orbits in an eclipic place is seen,
as seems the case with Rigel.
Instead, Scorpii matches the lens refraction properties of Antares in
having slashes carving through the telescope light ring, the slashes
undoubtedly (almost certainly) flares made more visible in being intense
enough to overpower the telescope's artificial constructs, except,
nothing is seen spilling out from the gashes into outer space beyond
the star proper, so the likehood is high that these are gouges caused
in the lens, and probable, that the lens, or telescope, was refocused
more than once during the photo shoot resulting in composite combining
of lens artificial effects.
However, some fun was had with the Sigma Scorpii image. This time, each
pane was adjusted through histogram equalize and the plates collaged
together into a composite showing a razzle dazzle display of spurious
lens ring effects, as well as deep space matter drifts as smokey as
you want to get.
CRESCENT ARC CENTERS
Next, the King Midas' Touch, reaches out a
long way, looks like two stars (one small) close together and two proto
disks the North/east South/west symmetrically warped, up and down, like
the flukes of a whale's lashing tail. The South/east disk protion is
barely seen at all perhaps hidden behind a haze made of non radiant
matter.
The Coku image, rotated, becomes identical in basic formula to
He2-90, and both have a look and feel identical in their central
wands to the central wands of the Spider, a
nebula residue from an explosion some time ago.
The Spider nebula, also known as The Red Spider
nebula, and also as Ngc 6573, is
investigated elsewhere for its
enormous size, seen when enhanced, and for its two short
rays.
The Coku center is hard to see due to blurriness, nevertheless two
stars are unmistakable, one star is bigger, and occupy a bulge baised
to the left, identical in construction to the center areas seen above
for the Spider nebula, and He2-90.
The smaller star above is said by observers to be one of the hottest
white dwarf stars ever seen by astronomers.
Notice the striking similarity also in He2-90 at left. He2-90 is
believed a double star but the age of the stars not easily understood
by interpreters who
offer more than one guess.
Note the striking similarity between all three 'crescent arc' centers,
in fundamental form He2-90, Coku, and Spider, all three have thin crescents
on the right, thick crescents on the left, and assymetric centers bulging
to the left of a centerline.
Next is a close in look at the center formation of the Red Spider nebula,
where stars (or two stars) are not seen, presumed by astronomy inspectors
to be hidden behind haze. Zoom closeup de-enhanced (the image registers
were turned awayyyy down by myself to expose the center disk wisps better)
does not reveal where either one or two stars may be located.
A suspected proto planet disk called 'Potter' from Hawaii is as follows,
original, followed by an enhancement for use in GIC. The two typewriter
stars in the blacked out center indicate two stars.
What is interesting is the fill in the dark area between outer donut
ring and inner plateau, the fill of indeterminant reason except it
wriths and twists, and cannot be seen until the original image (darker
version above) is very highly enhanced.
Stereo in the above two color pair enhancements, is just enough to
tell us that the dark ridge along the right inside is rising up over
the white flares to the left, which sink down behind the blacked out
center area.
A better look at this continuing tire blowout is going be very interesting,
someday.
If you need any of these Potter images full sized, save it, these are
all displayed small from full sized originals.
Either a beam such as a blazer, or a diffused telescope light spike,
in a critter
called a T Tauri Star Forming System, this blue image enhanced
the best as I can.
The following annotated T Tauri image from this
group, shows more than one star is involved, and astronomers cite
the beam as a jet, therefore not a telescope light spike,
I N N t e r r e s t i n g.
LITTLE ENGINES THAT COULD
Next, the Little Engine that could, a yellow
star seemingly riding forward this way chugging a train of cargo, the
yellow star proceeding on a North/west upward vector sideglancing a
larger reddish conglomerate behind to the left, the red rays and red
background perhaps from another image (seeming to the rear) over which
has been overlayed the brighter blue green and yellow image.
As modern artish as they seem, the above three garish images have
some very interesting subliminals in them, look around there is
quite a bit to see.
Massive star
afgl2591.
You would think if radial ribs (rill patterns) are being seen around
stars and are real, something should be seen around our Sun, and certainly
there is. Witness radial ribs in a rill pattern around our Sun.
These plasma Sun physics images are also used in a different context
in the GIC rilldisks page.
In the movie at left, a solar flare kicks forth, if facing Earth the
flare would sweep past fussing up a huge commotion in northern lights
Auroras.
STREAKER
A Streaker moving around is seen leaving
the main body of small galaxy Ngc 4214, leaving a smokey stover in the
form of a dragging trail composed of hot blue new stars, seen in high
enhancement.
Pixy dust star trails
A star in the Chamaeleon complex is definately a smoker, with rill
ribs.
The Chamaeleon stars have polarization filament bands that are not
immediately self evident as to source of cause, in that, no self
evident stars can be seen blowing polarization at right angles to
each other creating bands of filamentation crossing the stars at
right angles, such as is the scene at Pleiades
and to a lesser extent at Antares.
Dss did not serve any plates or archminutes catalogued under the
name 'Chamaeleon'
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