By Mitch Battros – Changes Media
Mar 2, 2011 – 11:22:50 AM

New findings show the manipulation of magnetic resonance (charged particles) can be used to make visible tangible items (see, touch, solid) "invisible". Two things immediately came to mind. Unfortunately, the first possibility of use would be military. Needless to say, the mis-use of such application would be devastating. But it is the second plausibility which has captivated my imagination.

It is now scientifically accepted that ten dimensions are known. This is to say we do not live in a 3 dimensional world, but a 10 dimensional universe. And of course this number could certainly increase as scientific instruments and data are created. It is the substance which separates the dimensions, which has my brain working overtime. What is that substance? "Magnetic Resonance".

I believe this new finding released only today, opens doors and gives tremendous credence to ancient text which speaks of "a time of ". As those of you who have been following my research have long known of my hypothesis regarding our Mayan ancestors, as well as most every ancient tribe. And what is your hypothesis? In a word – "Magnetics".

In fact, here is the exact statement I make on every newsletter I send out:

"I believe it will be the magnetic influence produced by which will usher in what is described by our ancient ancestors as "the transition" bringing us to a new state-of-being". (Mitch Battros)


To emphasize the solid platform of which I surround my analysis of the above statement, I feel it important to display my well-rounded sources of both hard scientific facts, and historical reference by supplying you with endorsed statements of my work. The link below addresses my book "Solar Rain: The Earth Changes Have Begun" which shows the direction of my sources.

Yet there is more: I believe it may not be much of a stretch to consider this newfound understanding of magnetic resonance – could be applied to what is commonly addressed as "ghosts". Is it possible the current and ongoing fluctuation of magnetic barriers caused by the Sun and other sources of galactic magnetic flux, could somehow yield open windows to a 4th, 5th, 6th etc. dimension? Is it possible, in this time of 'transition', everyday people could experience a brief (or ongoing) glimpse at the other side?


As new scientific discoveries so often promote – I have far more questions than answers —–


National Foundation, Marlene Cimons Reports:

While no one yet has the power to put on a garment and disappear, Elena Semouchkina, an of electrical and computer engineering at Michigan Technological University, has found ways to use magnetic resonance to capture rays of visible light and route them around objects, rendering those objects invisible to the human eye. Her work is based on the transformation optics approaches, developed and applied to the solution of invisibility problems by British scientists John B. Pendry and Ulf Leonhardt in 2006.


"Imagine that you look at the , which is placed in front of a light source," she explains. "The would be invisible for your eye if the light rays are sent around the to avoid scattering, and are accelerated along these curved paths to reach your eye undistinguishable from direct straight beams exiting the source, when the is absent."


In 1897, H.G. Wells created a fictional scientist who became invisible by changing his refractive index to that of air, so that his body could not absorb or reflect light. More recently, Harry Potter disappeared from sight after wrapping himself in a cloak spun from the pelts of magical herbivores.


Countless other fictional characters in books and films throughout history have discovered or devised ways to become invisible, a theme that long has been a staple of science fiction and a source of endless fascination for humans. Who among us has never imagined the possibilities? But, of course, it's not for real. Or is it?


To explain the science of how it works in the most simple of terms – the beams of light flow around the object and then meet again on the other side so that someone looking directly at the object would not be able to see it – but only what's on the other side.


"You would see the light source directly through the object," said Semouchkina. "This effect could be achieved if we surround the object by a shell with a specific distribution of such material parameters as permittivity and permeability."


She and her collaborators at the , where she is also an adjunct professor, designed a nonmetallic "invisibility cloak" that uses concentric arrays of identical glass resonators made of chalcogenide glass, a type of dielectric material–that is, one that does not conduct electricity.

In computer simulations, the cloak made objects hit by infrared waves – approximately one micron, or one-millionth of a meter long – disappear from view.


The potential practical applications of the work could be dramatic, for example, in the military, such as "making objects invisible to radar," she said, as well as in intelligence operations "to conceal people or objects."


Furthermore, "shielding objects from electromagnetic irradiation is also very important," she said, adding, "for sure, the gaming industry could use it in new types of toys."


Multi-resonator structures comprising Semouchkina's invisibility cloak belong to "metamaterials" (artificial materials with properties that do not exist in nature) since they can refract light by unusual ways. In particular, the "spokes" of tiny glass resonators accelerate light waves around the object making it invisible.

Until recently, there were no materials available with the relative permeability values between zero and one, which are necessary for the invisibility cloak to bend and accelerate light beams, she said. However, metamaterials, which were predicted more than 40 years ago by the Russian scientist Victor Veselago, and first implemented in 2000 by Pendry from Imperial College, , in collaboration with David R. Smith from Duke University, now make it possible, she said.


Metamaterials use lattices of resonators, instead of atoms or molecules of natural materials, and provide for a broad range of relative permittivity and permeability including zero and negative values in the vicinity of the resonance frequency, she said. Metamaterials were listed as one of the top three physics discoveries of the decade by the .


"Metamaterials were initially made of metallic split ring resonators and wire arrays that limited both their isotropy (uniformity in all directions) and frequency range," Semouchkina said. "Depending on the size of split ring resonators, they could operate basically at microwaves and millimeter (mm) waves."

In 2004, her research group proposed replacing metal resonators with dielectric resonators. "Although it seemed strange to control magnetic properties of a metamateral by using dielectrics, we have shown that arrays of dielectric resonators can provide for negative refraction and other unique properties of metamaterials," she said. "Low loss dielectric resonators promise to extend applications of metamaterials to the optical range, and we have demonstrated this opportunity by designing an infrared cloak."


Semouchkina and colleagues recently reported on their research in the journal Applied Physics Letters, published by the American Institute of Physics. Her co-authors were Douglas Werner and Carlo Pantano of Penn State and George Semouchkin, who teaches at Michigan Tech and has an adjunct position with Penn State.


The National Science Foundation (NSF) is funding her research on dielectric metamaterials and the team's applications with a $318,520 award, but she plans to apply for an additional grant to conduct specific studies into invisibility cloak structures.


Semouchkina, who received her master's degree in electrical engineering and her doctorate in physics and mathematics from Tomsk State University in her native , has lived in the for 13 years, and has been a U.S. citizen since 2005. She also earned her second doctorate in materials in 2001 from Penn State.


She and her team now are testing an all-dielectric invisibility cloak rescaled to work at microwave frequencies, performing experiments in Michigan Tech's anechoic chamber, a cave-like compartment in an electrical energy resources center lab, lined with highly absorbent charcoal-gray foam cones.

There, "horn" antennas transmit and receive microwaves with wavelengths up to several centimeters, that is, more than 10,000 times longer than in the infrared range. They are cloaking metal cylinders two to three inches in diameter and three to four inches high with a shell comprised of mm-sized ceramic resonators, she said.


"We want to move experiments to higher frequencies and smaller wavelengths," she said, adding: "The most exciting applications will be at the frequencies of visible light."

 Source: Letter to Robin