Scientists Breakthroughs Possible Power Without Cells

Not undeniable again, Man is now only a small portion is very small harvest of 12.2 billion kilowatt-hours expected to solar energy that hits the Earth every [source] days. It would seem foolish not to continue the great methods to try to harness this power affordable. But solar technology now relies on solar cells are still rather expensive and often has a durability problem.

That's why a new breakthrough in alternative energy at the University of Michigan is very interesting. Promise of solar power - without the expensive cells.

No, this is not a novel scheme of photosynthesis. The new technology relies on the principle of physics that were previously regarded as a trivial side note.

Magnetic Solar Energy -- a Radical Breakthrough

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."

How it Works

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."

So what's the catch? Ah, there's always a catch with anything that seems great, it seems.

The "catch" here is the material. In order to exhibit this effect, light must be shown on an insulator like glass. Glass, however, needs incredibly intense light to produce this effect -- 10 million watts per square centimeter. Normal sunlight only produces around 0.012 watts per square centimeter when shining.

Applications

One solution would be to create hardware to magnify the intensity of incoming sunlight, similar to the technique used in concentrated solar cells.

Mr. Fisher states, "In our most recent paper, we show that incoherent light like sunlight is theoretically almost as effective in producing charge separation as laser light is. To manufacture modern solar cells, you have to do extensive semiconductor processing. All we would need are lenses to focus the light and a fiber to guide it. Glass works for both. It's already made in bulk, and it doesn't require as much processing. Transparent ceramics might be even better."

Using novel materials, he and his professor expect that the necessary intensity for the effect can be dropped to much lower levels. They postulate that the sunlight conversion efficiency of cells with such new materials could likely reach 10 percent -- on par with current generation solar cells.

They say the costs associated with such magnetic solar power devices would be much lower, though, as they use non-rare materials like amorphous silicon (glass) and don't rely on expensive processes like semiconductor fabrication.

What's Next?

Professor Rand and his student will experiment this summer with producing electricity from intensified sunlight and from laser light -- a directly intensified form of light. After that wraps up, they hope to look into novel materials to exploit the novel effect at lower intensities.

The team also states that it is in the process of patenting their discovery, as it may one day grow into a lucrative power source.

For now you can read their paper "Optically-induced charge separation and terahertz emission in unbiased dielectrics" [abstract] if you have a subscription to the Journal of Applied Physics.

Up until now scientists thought that only the electrical charge separation effects of photons were strong enough to produce energy from sunlight. (Source: Aether Wave Theory).

Researchers have discovered a novel new effect which produces energy when intense light passes through an insulating material like glass, creating a strong magnetic field. (Source: Galucci's Catering).

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Global Positioning System (GPS) at Car

The Global Positioning System (GPS) is a space-based global satellite navigation system that provides reliable location and time information in all weather and at any time and anywhere on or near the earth where there is unobstructed line of sight to four or more GPS satellites. It is maintained by the United States government and freely accessible by anyone with a GPS receiver. The system was created and realized by the U.S. Department of Defense (DOD).

Global Positioning System (GPS) is the only satellite navigation system is functioning properly. The system uses 24 satellites that transmit microwave signals to Earth. This signal is received by the receiver on the surface, and is used to determine position, speed, direction, and time. System similar to GPS, among others, the Russian GLONASS, Galileo European Union, India IRNSS.

The GPS consists of three parts: the space segment, the control segment, and the user segment. The U.S. Air Force develops, maintains, and operates the space and control segments. GPS satellites broadcast signals from space, which each GPS receiver uses to calculate its three-dimensional location (latitude, longitude, and altitude) plus the current time.

GPS has become a widely used aid to navigation worldwide, and a useful tool for map-making, land surveying, commerce, scientific uses, tracking and surveillance, and hobbies such as geocaching and waymarking. The precise time reference provided by GPS is used in many applications including the scientific study of earthquakes and as a time synchronization source for cellular network protocols.

The design of GPS is based partly on similar ground-based radio navigation systems, such as LORAN and the Decca Navigator developed in the early 1940s, and used during World War II. In 1956 Friedwardt Winterberg proposed a test of general relativity using accurate atomic clocks placed in orbit in artificial satellites. To achieve accuracy requirements, GPS uses principles of general relativity to correct the satellites' atomic clocks. Additional inspiration for the GPS came when the Soviet Union launched the first man-made satellite, Sputnik in 1957. A team of U.S. scientists led by Dr. Richard B. Kershner were monitoring Sputnik's radio transmissions. They discovered that, because of the Doppler effect, the frequency of the signal being transmitted by Sputnik was higher as the satellite approached, and lower as it continued away from them. They realized that since they knew their exact location on the globe, they could pinpoint where the satellite was along its orbit by measuring the Doppler distortion.

Modernization

• In 1972, the U.S. Air Force Central Inertial Guidance Test Facility (Holloman AFB), conducted developmental flight tests of two prototype GPS receivers over White Sands Missile Range, using ground-based pseudo-satellites.
• In 1978, the first experimental Block-I GPS satellite was launched.
• In 1983, after Soviet interceptor aircraft shot down the civilian airliner KAL 007 that strayed into prohibited airspace due to navigational errors, killing all 269 people on board, U.S. President Ronald Reagan announced that the GPS would be made available for civilian uses once it was completed.
• By 1985, ten more experimental Block-I satellites had been launched to validate the concept.
• On February 14, 1989, the first modern Block-II satellite was launched.
• In 1992, the 2nd Space Wing, which originally managed the system, was de-activated and replaced by the 50th Space Wing.
• By December 1993, the GPS achieved initial operational capability.
• By January 17, 1994 a complete constellation of 24 satellites was in orbit.
• Full Operational Capability was declared by NAVSTAR in April 1995.
• In 1996, recognizing the importance of GPS to civilian users as well as military users, U.S. President Bill Clinton issued a policy directive declaring GPS to be a dual-use system and establishing an Interagency GPS Executive Board to manage it as a national asset.
• In 1998, U.S. Vice President Al Gore announced plans to upgrade GPS with two new civilian signals for enhanced user accuracy and reliability, particularly with respect to aviation safety and in 2000 the U.S. Congress authorized the effort, referring to it as GPS III.
• In 1998, GPS technology was inducted into the Space Foundation Space Technology Hall of Fame.
• On May 2, 2000 "Selective Availability" was discontinued as a result of the 1996 executive order, allowing users to receive a non-degraded signal globally.
• In 2004, the United States Government signed an agreement with the European Community establishing cooperation related to GPS and Europe's planned Galileo system.
• In 2004, U.S. President George W. Bush updated the national policy and replaced the executive board with the National Executive Committee for Space-Based Positioning, Navigation, and Timing.
• November 2004, QUALCOMM announced successful tests of assisted GPS for mobile phones.
• In 2005, the first modernized GPS satellite was launched and began transmitting a second civilian signal (L2C) for enhanced user performance.
• On September 14, 2007, the aging mainframe-based Ground Segment Control System was transitioned to the new Architecture Evolution Plan.
• The most recent launch was on May 28, 2010.[19] The oldest GPS satellite still in operation was launched on November 26, 1990, and became operational on December 10, 1990.
• On May 19, 2009, the U. S. Government Accountability Office issued a report warning that some GPS satellites could fail as soon as 2010.
• On May 21, 2009, the Air Force Space Command allayed fears of GPS failure saying "There's only a small risk we will not continue to exceed our performance standard.