Project: Little Legends
(This is an ongoing investigation and exploration. More will be edited in or out, as newer tests are done and as we learn more about how to accurately interpret our findings. Therefore this page will change often).
A wire removed from a person’s foot turns out to share structural similarities with a small spherical UFO that crashed in 1994.
Orestis Lazanakis
In 2020, a man went to bed normally one night. He does not remember having any kind of contact experiences. When he got up the next morning, he couldn’t walk, feeling “like stepping on glass”.
He examined his foot and saw a silvery wire sticking out beneath the arch of the toes. He started to “dig deeply” and pulled it out with the help of his partner.
As they did it, he “could feel all the nerves up to the calf”, and the only bleeding that occurred did because of the removal effort. The silvery object was put in a sterile bag and left on the fridge. The next day, it had changed into to a gold-colored coil. The day after, it had become silvery again and was in the process of breaking down.
First Form, Day 1
Second Form, Day 2
Breaking down, Day 3
Breaking down, Day 3
Breaking down, Day 3
Not knowing what to do, the witnesses stored the object away where it remained for a year. When we made contact and they checked it again, to everyone’s surprise it had reassembled and changed shape again, this time into a black wire with a single loop in the center.
I proposed it should be given to me to take it to the lab for analysis. Just before mailing it, the witnesses noticed a number of tiny pieces had appeared next to it. When it arrived, there were stains on the inner side of the zip bag along with brown bits.
The diameter of the loop had also changed, as if the object had moved on its own.
There were no pressure marks on its container, and it was observed in yet another different position a few days later.
I took the dimensions of the Wire. It is cylindrical, homogeneous across, 30mm long if it were straightened and 1mm in diameter. It is also unusually resistant for its size – it took me more than ten minutes of physical effort to bend it only slightly.
Right before mailing
Arrived
Changed position
Tests Done
X-ray Fluorescence (University of Patras) for an initial picture of elemental composition.
SEM/EDS (Fei Quanta, National Center for Scientific Research “Demokritos”) for high-resolution images of the surface and cross-section of the Wire and the organic bit.
X-ray Diffraction (National Center for Scientific Research “Demokritos”) to explore the object’s chemical bonds to gain some insight on how its elements are alloyed into materials.
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The first test we did was X-ray Fluorescence at the University of Patras.
The object was never touched with hands so that contaminants would be minimal.
This is when I tried my best and managed to bend it ever so slightly so it could fit into the instrument.
- Titanium is biocompatible ; it does not provoke an immune response when inside the body.
- Nickel can give the Titanium shape memory and elasticity.
Indeed we use an alloy of Titanium and Nickel in medicine for stents and for… implants.
Another application for shape memory Titanium is Nitinol, which can return
to its originally set shape via heating, possibly from a battery.
Nitinol test
Nitinols return to their shape immediately and rigorously when sufficient heat is supplied. Commercial Nitinol temperatures are -15C to 45C. After the XRF, XRD and SEM tests, I immersed the Wire into boiling water (~100C) and it did not move at all, so it is not an ordinary Nitinol wire.
Magnet test
It also did not appear to react to the presence of a strong Neodymium magnet. This suggests that its Iron and Nickel, being magnetic, might be alloyed with other elements.
Scanning Electron Microscopy
A piece was cut to enable us to view the interior. It was shiny and much brighter than the otherwise black exterior. This already suggests that the exterior is made differently or that it is a thick coating. The largest of the light brown bits was also examined.
The two samples to be examined are the Wire and the Bit:
Low magnification of the Wire’s exterior reveals that even though its surface looks smooth and without cracks, microscopically it looks like the surface of an asphalt road. Also visible on its surface are thin “bands” parallel to the Wire’s length.
The interior likewise contains thin layers, as can be seen to the top right and bottom left. There is also an “Arachnoidal Network” spanning the Wire’s diameter.
Higher magnification of the exterior and cross-section, and EDS
The Arachnoidal Network is very fine, ~500nm at its thickest, ~15nm at its thinnest. It seems to be embedded into the metal, with its branches gradually fading into the main body. There are also parallel cylindrical grooves and numerous micro-voids on the cross-section, which are often surrounded by branches of the Arachnoidal Network. The exterior also contains considerably more elements than the interior.
The “bottom floor”of the interior was also examined.
The asphalt-like exterior progresses up to a depth inwards, showing that it is also engineered to be this way. Like in the cross section, the asphalt-like substance gradually melds inwards. The Arachnoidal Network is not seen at the bottom floor, while in the earlier cross section, it can be seen reaching its edge. The lines on the bottom floor are likely left by the cutting instrument. There were also some oval “stains” detected on or around some cylindrical grooves.
There are also “pebbles” on the bottom floor that contain the same elements as the rest of the Wire.
Higher magnification of two micro voids, and EDS
The micro voids split in two further down, and come in various sizes. This particular one was found to have Aluminum on the bottom, before the two smaller voids begin descending. There is also a vague semblance of the arachnoidal network at the bottom. The smaller micro void is ~640nm in diameter, splitting in two smaller voids that are ~110nm diameter. The “bridge” between the deeper voids is ~290nm long and ~100nm wide.
EDS on a thicker branch of the arachnoidal network
There don’t seem to be any particular elements comprising the network than those found elsewhere in the cross section. It is almost pure Ni and Ti with some barely detectable C.
Images of the ends of the tested part of the Wire: Left shows the undisturbed end, right shows the end where it was cut.
After the initial SEM test, I soaked the brown Bit in room-temperature water and it turned from dry and grainy to semi-transparent and smooth.
The Wire’s loop had now moved to the new center. If the organic matter plays a role in its functions, we might then speculate that the object runs on a “bioAI”
The experienced scientist operating the XRD instrument was able to obtain some information about the Wire even though it was not in powdered form. To do this the object had to be straightened.
It was determined that the Nickel and Titanium are indeed alloyed together.
Ever since the XRD test, the Wire became “less black”, while under an optical microscope we observed some “stains” that may or may not have been present all along, very reminiscent of those found on its interior much prior to the XRD test. The Wire also stopped moving for the most part, I only saw the far 1-2mm of it having bent slightly after weeks.
Similar build signatures with small spherical UFO
Patrick Jackson’s theory revolves around formations of metallic spheres that make up a worldwide defense network that has been in place perhaps for thousands of years. In 1994, one such sphere crashed in Mexico. Jaime Maussan gave a piece of it to Steve Colbern, founder of Neutron Star Nanotechnology. Surprisingly, there exist several similarities between Steve’s Fragment and the Wire.
Arachnoidal Network
Cylindrical Grooves
Micro Voids that split in two further down
And Titanium majorities on the outer layer or coating
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Steve’s fragment was found to have non-terrestrial isotopic ratios
Given their many similarities, the Wire is hypothesized to be no different. This can be determined by the appropriate Mass Spectroscopy test which is pending. There is also a fundamental difference: Steve’s Fragment has Vanadium instead of Nickel, and contains no Silicon or Phosphorus, both of which are found on the Wire’s XRF. We might be seeing a clever planning behind the construction of each of the two machines. By changing some elements, their engineering makes them fit for different environments: A Ni-Ti alloy is good for slithering past the delicate structures of the human body, while Vanadium instead enables the object to perform in aero-space. Our impression of this study is that since the two objects share so many similarities in their engineering, then their makers must be the same. The abductees believed in that hypothesis already, but we now have scientific evidence for it.
