From: Raw Story
A team of scientists claim to have unearthed startling data from dust and debris gathered in the days and weeks after the World Trade Center towers collapsed on Sept. 11, 2001.
In a study published by the Open Chemical Physics Journal — a peer-reviewed, scientific publication — Steven E. Jones and Niels Harrit level a stark allegation: that within the dust and rubble of the World Trade Center towers lays evidence of “a highly engineered explosive,” contrary to all federal studies of the collapses.
“We have discovered distinctive red/gray chips in all the samples we have studied of the dust produced by the destruction of the World Trade Center,” reads the paper’s abstract. “One sample was collected by a Manhattan resident about ten minutes after the collapse of the second WTC Tower, two the next day, and a fourth about a week later. The properties of these chips were analyzed using optical microscopy, scanning electron microscopy (SEM), X-ray energy dispersive spectroscopy (XEDS), and differential scanning calorimetry (DSC).”
They claim their analysis has uncovered “active thermitic material”: a combination of elemental aluminum and iron oxide in form of thermite known as “nanostructured super-thermite.”
Thermite, used in steel welding, fireworks shows, hand grenades and demolition, can produce a chemical reaction known for extremely high temperatures focused in a very small area for a short period of time.
According to the Navy’s Small Business Innovation Research, super-thermite “is restricted under the International Traffic in Arms Regulation (ITAR), which controls the export and import of defense-related material and services.”
“This finding really goes beyond anything that has previously been shown,” said Jones in a media advisory. “We had to use sophisticated tools to analyze the dust because this isn’t just a typical explosive, RDX or CD4 or something — this is a highly engineered material not readily available to just anyone.”
“The cost and production rate of super-thermite composites has limited the use of these materials in DoD applications,” claims the Navy’s SBIR.