РефератыИностранный языкSuSuperconductors Essay Research Paper Type II superconductors

Superconductors Essay Research Paper Type II superconductors

Superconductors Essay, Research Paper


Type II superconductors are much different from Type I superconductors


because Type II superconductors gradually become superconducting


materials as opposed to at a certain temperature as Type I superconductors


do. As opposed to Type I superconductors, Type II superconductors are


mostly metallic compounds and alloys. The major exceptions to this are


the elements niobium, technetium, and vanadium. These are pure elements


that are Type II superconductors at sufficiently low temperatures.


Type II superconductors have much higher critical temperatures than Type I


superconductors. Also opposite to Type I superconductors, Type II


superconductors do allow some penetration by an external magnetic field.


Scientists are still trying to understand what makes Type II


superconductors have critical temperatures so much higher than those of the Type I


superconductors. It is thought that it is related to the planar


layering in the structure of the crystal. The highest temperature Type II


superconductor is a perovskite with a critical temperature of 138 K, an


incredibly high temperature for a superconductor. This compound is


Hg0.8Tl0.2Ba2Ca2Cu3O8.33.


The final type of superconductors is the atypical superconductors.


These superconductors are made by fullerides. Fullerides or fullerenes


are spherical molecules that are made of sixty carbon atoms. This type


of superconductors do not have the high critical temperatures that the


Type II superconductors do. Like ceramic superconductors, fullerenes


are a fairly recent discovery. They were accidentally discovered in


1985 by Robert F. Curl, Jr. and Richard E. Smalley of Rice University in


Houston and Professor Sir Harold W. Kroto of the University of Sussex in


Bighton, England. Because this material is fairly new, not much is


known about fullerides or why exactly they can superconduct. Fullernenes


are technically part of a larger family of organic conductors, which


include molecular salts, polymers, and pure carbon systems. The


molecular salts, often referred to as ?molecular? superconductors, are the


organic molecules that exhibit superconductive properties at very low


temperatures. Organic superconductors are composed of an electron donor


(the planar organic molecule) and an electron acceptor (a non-organic


anion). In 1993, Bob Cava, currently at Princeton University, and Bell


Labs discovered ?Borocarbides? which are one of the least-understood


superconductor systems of all. These superconductors raise questions about


the always-assumed theory that superconductors cannot be formed from


ferromagne

tic transition metals – like iron, cobalt or nickel. With all


the questions that these superconductors arouse, atypical


superconductors are the most mysterious of all the other types.


The discovery of superconducting materials has opened the doors to


endless possibilities in technological advancements. Many transportation


vehicles such as trains are beginning to take advantage of


superconductors? magnetic-levitation ability. Using strong superconducting


magnets, these vehicles can be made to ?float? and virtually eliminate


friction between the train and its tracks. In biomagnetism, doctors can use


superconductors to save lives through the usage of impinging a strong


superconductor-derived magnetic field into the body and using a computer


to detect the energy released to view the inside of the human body.


This medical process is called Magnetic Resonance Imaging (MRI) and has


become crucial in determining what is wrong with the internal systems of


the body. Superconductors make s being able to accelerate sub-atomic


particles to nearly the speed of light, which is effective in


construction. Because of the little to no resistance of electric current in


superconductors, they have become extremely useful in electric generators


and other electrical devices. Superconducting wire has been found to be


more than ninety-nine percent more efficient than the typical copper


wires. ?Petaflop? computers being newly tested which uses


superconductors to have a thousand trillion floating operations per second, speeding


up the computer immensely. Superconductors have also been found to be


extremely effective in satellites and many military applications as


well. The list of possible uses of superconductors goes on and on, and


with the constant new discoveries and developments, the possibilities are


endless.


Through the discovery of superconductors, many technological


advancements were brought about. The science of superconductivity is relatively


new and much still remains unknown. The limits of superconductivity


have not yet been reached, and what theories that are in existence are


still under constant scrutiny. There are three main types of


superconductors that are widely used. From construction to transportation, from


electricity to computer, from military applications to the medical


field, superconductors have become immensely important in many aspects of


today?s world. Everyday, new things are discovered and a new technology


improved; this is just the beginning of superconductor?s abilities.


The possibilities are endless and the future looks bright for this


exciting material.

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