An Alien Device Found Under Antarctic Ice?
[4] - 780,000 Years Ago Something Massive Hit Antarctica
The enormous brightly glowing object careered down through the sky, billowing smoke in its wake.
Structurally weakened by the incredible heat and growing atmospheric resistance it shattered into five fiery shards.
The Ice Breaker
Split seconds apart the five impactors slammed into the ice fields. Enormous clouds of smoke and steam vomited back out of the gaping craters.
The largest hole melted through the ice measured around 320 kilometres across. Prior to fragmenting the parent body measured ~5 kilometres in diameter.
It was in 2004 that mapping of gravitational anomalies across the Antarctic continent confirmed the suspicions of Frans van der Hoeven, a professor at Delft University in the Netherlands.
Professor van der Hoeven first identified a possible large crater site from magnetic anomaly data while on an expedition in Antarctica in 1960.
Despite the vast scale of the impacts the event didn't seem to cause a global effect. This may have been due to the ice limiting destruction further afield, or perhaps something unusual about the impacting object itself.
It Ends in Antarctica
The Australasian tektite strewnfield stretches 12,000 kilometres in length. Fragments of this glassy debris fell across 20-30% of the earth's surface.
Maps of tektite debris discovery sites indicate that the explosive formative event occurred in, or above, Indochina. This origin model correlates with the weight and chemical composition of tektites across the strewnfield.
Chemical analysis of tektite material informs us of which pieces travelled furthest from the initial heating event. Microtektites found in the ice of Antarctica exhibit clear indications of being the glass that travelled furthest.
In the frigid wastes of Antarctica, we reach the end of our trail. The last pieces of the once-molten cosmic visitor now lay frozen in the permafrost.
Perhaps more than just micro-sized glassy spheres plunged into that frigid wasteland.
It is certainly an astonishing coincidence that satellite data indicates a large object broke up over that continent during the same period as the tektites fell.
We can calculate that if a large section of the mothership continued along its decaying orbital path southwards it would eventually plunge into the ice. The five impact sites are distributed across a snow-covered region measuring around 2000 X 3850 kilometres.
This is nothing short of startling. It may be that stored in the natural deep freeze of our southernmost landmass an alien technology awaits our retrieval.
It is also plausible that some of these sites have already been discreetly excavated. There are a lot of strange rumours about something extraordinary found in Antarctica. Something ancient. Something alien.
We can't help but think again about Bob Lazar claiming he was told at least one flying saucer had been recovered from an archaeological setting. Perhaps a crystalline craft frozen deep in the ice could persist intact almost indefinitely. The crystalline Churinga remained intact and functional for hundreds of millennia.
All we can say for certain is that we just found ourselves looking at a giant hole right at the end of the world's biggest debris trail. That’s quite a coincidence.
Aliens, Seriously?
What would happen if you told someone Australasian tektites are the remains of an alien craft destroyed in orbit?
I'm betting first you'll get a dismissive response, but after that, they'll likely look it up. The results will tell them these tektites are melted glass from an asteroid impact in Southeast Asia. With a likely source crater found in Laos.
I've been there myself (both in that specific situation and in Laos).
We need to dismantle the popular asteroid impact hypothesis before the claim of an alien craft exploding can be taken more seriously. So dismantle it we shall.
That Little ‘Crater’ in Laos
First, let's address the widely reported claim that a source crater has now been located.
Technically, no crater has been confirmed but the magnetic anomaly under the Bolaven Plateau probably is an impact feature. It certainly resembles one.
However, there's a growing number of experts that are very sceptical such a small impact feature can explain a tektite strewnfield 12,000km long. Including debris that very definitely travelled through space.
We previously touched on the fact it requires truly enormous impacts to eject material into space. Impacts on the scale of the Chicxulub event. I should mention that Chicxulub isn't itself linked to any tektite strewnfield.
The Chesapeake Bay impact feature is an 85km diameter crater linked to an asteroid impact into the ocean 35 million years ago. The crater is widely considered to be the source of the North American tektite strewnfield, the dates for both match up. The associated tektites are termed georgiaites and bediasites.
The North American strewnfield covers approximately 10 million square kilometres. The Australasian tektite strewnfield covers well over 100 million square kilometres.
The buried anomaly in Laos measures 13km X 17km. This infers that any crater present would be less than half the size of the Chesapeake Bay impact feature.
The math there just doesn't add up.
It's not just the unimpressive size of the feature that leaves many scientific experts doubtful. In an excellent rebuttal paper, Jiri Mizera shows that the chemical composition of the tektites is incompatible with the geologic makeup of the plateau.
It is however entirely possible that a significant fragment of the enormous satellite plunged into the Bolaven Plateau. The evidence we are going to consider here suggests large chunks rained down across Indochina.
Tektites Morphological History
It's an intriguing fact that the Australian strewnfield is composed of four distinct forms of tektites.
Australite button tektites exhibit aerodynamic reshaping during atmospheric entry. These button forms are found exclusively across the southern regions of Australia and on Java (javasites).
Muong Nong layered tektites are large pieces of surface melt. They are composed of many layers often with internal folding and twisting. This form is found at sites across the Philippines, Thailand, Cambodia, Laos, Vietnam, and southern China.
Splash-form tektites are shaped by rotational motion whilst travelling through air. These are clearly formed inside the earth's atmosphere, and their morphology is typical of volcanic eruptions and impact ejections. They are found from Indochina to southern Australia.
Microtektites are minuscule spherules of melted glass under 1mm in diameter. Typically these microscopic glass beads are found around the edges of the strewnfield. Many are recovered in ocean core samples or from Antarctic Ice.
Echoes From Aerial Bursts
Single pieces of Muong Nong tektite can weigh over 20 kilograms. These large tektite pieces exhibit complex layering and internal folding of the melt sheet. Many studies have indicated that the melt is a combination of welded microtektites in vast numbers mixed into super-heated local rock strata.
All scientists agree that Muong Nong tektites must be produced near the initial blast. They are too heavy for any mechanisms of ballistic transfer to carry them a great distance. In theory, they should be sitting right at the crater site if they formed during an asteroid impact.
So where is the enormous crater that might explain layered tektites spread thousands of miles apart at sites as distant apart as Thailand, the Philippines and South China?
Nothing of sufficient scale is found in satellite maps.
Instead, what we do see is the fingerprints of multiple aerial burst events occurring across Indochina. Each of these explosive events created raging plasma storms that scoured the surface below, sucking material into the maelstrom. The chaotic mixture of material from above and below merged, flowed, and folded.
As previously noted, the heaviest pieces of Australasian tektite glass are the Muong Nong tektites exhibiting weights up to 25 kilos, therefore inferred to be situated proximally to the hypothetical impact crater. The total area of the Muong Nong tektite distribution is ~7 X 105 km2, stretching from Cambodia to Hainan Island, China.
Unlike Australasian button and splash-form tektites, Muong Nong samples show heterogeneous chemical makeup and apparent relics from melted rock. They are definitely a mixture of extraterrestrial and terrestrial materials.
Norm Lehrman, an exploration geologist and tektite researcher, has championed an asteroid airburst origin for Muong Nong tektites. Lehrman suggests that the layered tektite sheets formed after large pieces of a fragmenting asteroid exploded low in the atmosphere.
The subsequent plasma storms vacuumed up surface material into a swirling mass of molten debris. Raging hotter than the surface of the sun.
A melt sheet would have resulted at surface levels beneath the aerial bursts in the sky. The interface between molten layers with lower viscosity than those on either side might lead to a planar break and a brief runaway by upper layers, producing recumbent folds as often observed in lava and obsidian flows.
The twisting and folding of layered glass observed in Muong Nong tektite are reminiscent of the same phenomena observed in glasses from the Atacama Desert. Atacama Desert melt glass resulted from aerial bursts caused by comet fragments exploding at low altitudes.
The only point of disagreement I have with Lehrman is over the nature of the parent body. The profile of the aerodynamically shaped tektites disputes the asteroid hypothesis. In all fairness, Lehrman acknowledges that he has not resolved all the known anomalies.
Button tektites indicate a fragmenting terrestrial satellite, not an asteroid plunging inward from deep space. However, his offered evidence for aerial bursts remains solid.
As the sizeable fragments exploded within the atmosphere they also threw out large quantities of molten glass that travelled through the air before raining down. These blobs of liquid are responsible for the splash-form tektites.
The splash-form tektites come in many types, such as spheres, oblate spheroids, dumbbells, teardrops and disks. The shaping is the result of rapidly cooling drops of viscous fluid in rotation during ballistic flight.
Microtektites travelled the furthest distances from their formative explosive events as their minute size and weight meant lower atmospheric resistance. These tiny travellers have been found around the edges of the strewnfield mostly in ocean floor core samples.
Chemistry, Isotopes and Crystals
Australasian tektites have a chemical profile often explained as inferring a geologically well-mixed source of surface sedimentary rock.
The overall chemical and isotopic makeup of Australasian tektites concerning the most abundant and trace-element abundances, including the lead and strontium isotope ratios, suggest extraterrestrial origin as products of an entirely similar planet.
Experimental analysis of the chemical trends in australites conducted through vaporisation in a vacuum and vapour fractionation in an oxidising atmosphere revealed characteristic indications of fractional crystallisation occurring in a cooling magma.
The inevitable conclusion of that experimental analysis was that the tektite chemistry closely reflects that of a pre-existing parent body composed of igneous material.
Australasian tektites are chemically unlike earth’s igneous rocks, suggesting that an igneous parent body would be of extraterrestrial origin.
The significant differences between the tektites and the earth’s igneous rocks suggest magmatic evolution at lower pressures than possible in the earth’s interior (Chapman, D. R. & Scheiber, L. C. 1969).
The suggestion that Australasian tektite composition closely resembles the parent body is problematic when we consider that no known asteroid or comet is composed of >60% silica (Randy L. Korotev, 2020).
The quartz required for lechatelierite formation observed in these tektites would also not be present in known cosmic bodies.
Rather than detailing all of the complexities of composition here, I would suggest that you please revisit my paper.
Conclusions
Taking everything we have learned a hand-in-glove level of correlation emerges. Every part of the observational evidence fits perfectly with the hypothesis of an exploded terrestrial satellite.
We can now visualise the events of that fateful day some 788,000 years ago.
The vast artificial moon skimmed the atmosphere high above Southeast Asia. Swathes of fluffy white clouds obscure the blue-green surface far below.
From out of the clouds emerged a formation of craft. Unaware of the threat the crew of the mothership took little notice. The ambush began.
The Alcherringa When the First Ancestors Were Created source information provides significant details about what followed.
“Now he is giving an order to fire on the ship, he wants me to destroy it. Oh no, now I am firing a particle beam weapon into the star ship.”
“It appears that we have an incursion with other ships. We seem to be under attack. It’s like an ambush, and we have taken heavy losses.”
“Now I am watching the mother ship evacuate because it is under attack. Many little ships are leaving towards the planet.”
“I can see an electromagnetic force beam shooting into the ship and eventually blowing it up.”
“The ray that is projected is a sound that entrains, I understand this very well. It entrains to a frequency that is similar to the composition of the material that it is destroying, a similar vibration at much higher amplitude that causes it to shatter, just like a singer with a high note shattering a glass.”
- Alcheringa When the First Ancestors Were Created
The mothership exploded into a cloud of broken wreckage and molten glassy droplets. The momentum from the existing orbital path pulled the debris swarm onward to the southeast.
Large chunks of debris rocketed immediately downward breaking the atmosphere at multiple locations across Indochina. Dozens of high-altitude blasts followed, each producing showers of splash-form tektites. Some glass was launched outwards into the cosmos. Glass spherules with the expected chemical composition have been identified on the moon.
Debris also made it into the lower atmosphere. These caused the explosive events responsible for Muong Nong tektites.
A portion of the glassy debris exploded directly forward and backwards, this skipped along the atmospheric boundary both ahead of and behind the fragmenting satellite. These two waves of reshaped button tektites fell across Java and southern Australia.
Upper atmosphere aerial bursts occurred across Australia, leaving notable clusters of splash-form tektites. No Muong Nong tektites formed across the Australasian continent.
The final fragments of wreckage and glassy droplets plunged down into the southern ice sheets. There lying frozen for millennia.
No need for a missing Chicxulub-type crater. No requirement for exotic vacuum holes to allow debris to exit into space. The mysterious lack of a global dust layer is resolved. We needn’t question why no global cataclysm is associated with the vast strewnfield.
Everything just slots nicely into place. The observational evidence is all addressed and associated anomalies are resolved. The strongest hypothesis becomes the scientific theory of choice.
Well, it should. But that's not how science works when you dare to invoke aliens.
For those who believe, no proof is necessary. For those who don't believe, no proof is possible.
-Stuart Chase
There is a lot more important information on the formation, composition and distribution of Australasian tektites. My in-depth analysis and refutation of consensus hypotheses can be explored by reading that document if you still have questions.
Our next conversation will address the claim that just a few years after the destruction of the mothership, alien technology was employed to redirect asteroids into collision paths. Surely, a multi-directional bombardment of earth would leave some traces?
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What do you think are the lowest hanging fruit projects that could add more evidence to support/refute your theories on the ship/genetics (or anything else you think is worthwhile)?
makes sense! thanks