Wednesday, March 24, 2010

Skepticism with New Development in Light Manipulation



A recent study by scientists is proven to have been one of the most groundbreaking phenomenons since stem cell research. Researchers that are currently studying the properties of electromagnetic charge and light reaction were astounded with the discovery they had made. According to this newfound discovery, light can actually manipulate matter due to a repellance in the negative ions. Scientists were well aware that prisms and glass shapes have the ability to change the direction of light and even alter its colour properties, but they neglected to even consider the reverse effect. The study was conducted through a series of nonparticle (small clumps of matter) strings that were attached to nano ribbons. Researchers, using a darkened lab, observed the "curling" movement exhibited by the ribbons when light was shone upon them. Although intrigued, many scientists possessed a dubious attitude towards this strange phenomenon.

The study began with the nonparticles bearing a slightly negative electromagnetic charge. What took place when the photons (positive ions) from the light were shone onto these particles, was a nonvisible stimulation in the electrons. This caused a chemical reaction which led to repellance due to the negative ion interlock. "I didn't believe it at the beginning" Kotov, a scientists currently studying the properties of light and electromagnetic correlation, ""To be honest, it took us three and a half years to really figure out how photons of light can lead to such a remarkable change in rigid structures a thousand times bigger than molecules." The rationale for such a phenomenon is through a tension between the nonparticles repulsion to one another. Subsequently, this is what causes the reaction within the ribbon and as a result the scientist can see the twisting like motion of the ribbons. In conclusion, this discovery, although suspiciously intriguing, could in fact pave the way for new spiral like technology further assisting the optic field.


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