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    Second Family of High-Temperature Superconductors Discovered
    Posted on Saturday, April 26, 2008 @ 21:05:06 GMT by vlad

    Science By Adrian Cho/ScienceNOW Daily News/ 17 April 2008

    Researchers in Japan and China have discovered a new family of high-temperature superconductors--materials that conduct electricity without any resistance at inexplicably high temperatures. Physicists around the world are hailing the discovery of the new iron-and-arsenic compounds as a major advance, as the only other high-temperature superconductors are the copper-and-oxygen compounds, or cuprates, that were discovered in 1986. Those older materials netted a Nobel and ignited a firestorm of research, but physicists still don't agree about how they work, leaving high-temperature superconductivity the biggest mystery in condensed matter physics. Some researchers hope the new materials will help solve it.



    "It's possible that these materials will provide a cleaner system to work with, and suddenly [the physics of] the cuprates will become clearer," says Hai-Hu Wen, a physicist at the Institute of Physics (IoP) at the Chinese Academy of Sciences in Beijing. But Philip Anderson, a theorist at Princeton University and a Nobel Laureate, says that the new superconductors will be more important if they don't work like the old one. "If it's really a new mechanism, God knows where it will go," he says...

    More: http://sciencenow.sciencemag.org/cgi/content/full/2008/417/1

     
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    "Second Family of High-Temperature Superconductors Discovered" | Login/Create an Account | 1 comment | Search Discussion
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    SUPERCONDUCTIVITY IN SUPER HARD DIAMOND (Score: 1)
    by vlad on Wednesday, June 04, 2008 @ 22:14:41 GMT
    (User Info | Send a Message) http://www.zpenergy.com
    SUPERCONDUCTIVITY IN SUPER HARD DIAMOND -
    A Study calculates that boron-doped diamond (BC5) should be superconducting on up to temperatures of 45 K, which, if borne out in experiments, would make this class of material with the highest with the highest transition temperature into a superconducting state mediated by the passing of phonons. (Calandra and Maui, Physical Review Letters, upcoming article)

    Source: Physics News Update 866




     

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