… The first reports involved a Russian professor who devised a new method of invisibility by redirecting light around objects. Later, U.S. and British researchers were able to use similar techniques to cloak a metal cylinder from microwaves. Next, University of Maryland reported successfully cloaking small 2D objects from all light waves. A recent overview on the topic of cloaking provided more insight.
Now a new breakthrough in the art of illusion has been achieved. Researchers at the Nanoscale Science and Engineering Center at the University of California, Berkeley have for the first time found a way to cloak 3D materials. They did this with not only one, but with two different materials.
One approach uses a nano-fishnet of metal layers. The other uses nanoscale silver wires. Both approaches make what is known as “metamaterials” — special manmade materials with properties not seen in nature. These materials have a negative refraction index, meaning they can bend light around them. … He explains the typical positive index of refraction saying, “In naturally occurring material, the index of refraction, a measure of how light bends in a medium, is positive. When you see a fish in the water, the fish will appear to be in front of the position it really is. Or if you put a stick in the water, the stick seems to bend away from you.”
What would a negative index of refraction look like? Mr. Valentine explains, “Instead of the fish appearing to be slightly ahead of where it is in the water, it would actually appear to be above the water’s surface. It’s kind of weird.”
The key to achieving such strange mechanics is to develop structures smaller than the targeted wavelength of light. Mr. Valentine’s team targeted the near the visible spectrum, in a region used in fiber optics. … Despite his belief that cloaking is “not quite there”, Mr. Valentine says both technologies could soon allow for a cloak of invisibility. He explains, “However, cloaking may be something that this material could be used for in the future. You’d have to wrap whatever you wanted to cloak in the material. It would just send light around. By sending light around the object that is to be cloaked, you don’t see it.”
Professor Zhang is similarly enthusiastic, stating, “What makes both these materials stand out is that they are able to function in a broad spectrum of optical wavelengths with lower energy loss. We’ve also opened up a new approach to developing metamaterials by moving away from previous designs that were based upon the physics of resonance. Previous metamaterials in the optical range would need to vibrate at certain frequencies to achieve negative refraction, leading to strong energy absorption. Resonance is not a factor in both the nanowire and fishnet metamaterials.”
The research was government funded as the Defense Department has great interest in developing invisibility cloaks for its fighters, soldiers, and warships. – dailytech
If the technology already secretly exists, it could explain some UFO sightings as well as “the shadow people”.