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Solar Energy holds the Key

Image for Solar Energy holds the Key

Mankind currently only harvests a tiny fraction of the estimated 12.2 billion kilowatt-hours of solar energy that hits the Earth every day.

It would seem a great folly not to pursue methods to try to harness this power affordably. But current solar technology relies on solar cells that are still rather expensive and often have durability issues.

That’s why a new breakthrough in alternative energy at the University of Michigan is so exciting. It promises solar power without the expensive cells.

The new technology relies on a physics principle previously considered a trivial side note, i.e. ‘Magnetic Solar Energy’.

Light has two components, magnetism and electricity. All solar cells currently utilize the electric effects of light. The magnetic nature of photons was dismissed as too weak to be of any use.

But Stephen Rand, a professor in the departments of Electrical Engineering and Computer Science, Physics and Applied Physics at U of M, was fascinated by this property. He wondered whether it could be somehow put to use.

During his investigations he discovered something unexpected. When light passes through a strongly insulating material, its normally weak magnetic output is profoundly multiplied and a relatively strong magnetic field results.

In fact, the field is 100 million times stronger than previously expected, strong enough to produce the kind of large magnetic effect needed for power generation.

Professor Rand admits the results will shock many physicists. He states, "You could stare at the equations of motion all day and you will not see this possibility. We’ve all been taught that this doesn’t happen. It’s a very odd interaction. That’s why it’s been overlooked for more than 100 years."

The magnetic effect comes from a unique type of "optical rectification". Optical rectification is a general physics term that refers to what light does when it enters certain materials.

Previously, the best-known type of optical rectification was the charge separation that light created when passing into certain kinds of crystalline materials (like crystalline silicon). This electric effect produces a voltage and is the foundation of modern solar cells.

Professor Rand and his Ph.D. candidate student, William Fisher, discovered a radical new type of optical rectification. In certain materials, they found, the magnetic field of light was strong enough to bend electric charges into a ‘C’ shape.

Describes Fisher, "It turns out that the magnetic field starts curving the electrons into a C-shape and they move forward a little each time. That C-shape of charge motion generates both an electric dipole and a magnetic dipole. If we can set up many of these in a row in a long fiber, we can make a huge voltage and by extracting that voltage, we can use it as a power source."

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