Space Industry and Business News  
One Of The Most Important Problems In Materials Science Solved

-
by Staff Writers
Uppsala, Sweden (SPX) Feb 25, 2009
Together with three colleagues Professor Peter Oppeneer of Uppsala University has explained the hitherto unsolved mystery in materials science known as 'the hidden order' - how a new phase arises and why.

This discovery can be of great importance to our understanding of how new material properties occur, how they can be controlled and exploited in the future. The findings are now being published in the scientific journal Nature Materials and of great importance to future energy supply.

For a long time researchers have attempted to develop the superconducting materials of the future that will be able to conduct energy without energy losses, something of great importance to future energy supply. But one piece of the puzzle has been missing.

There are several materials that evince a clear phase transition in all thermodynamic properties when the temperature falls below a certain transitional temperature, but no one has been able to explain the new collective order in the material. Until now, this has been called the hidden order.

"The hidden order was discovered 24 years ago, and for all these years scientists have tried to find an explanation, but so far no one has succeeded. This has made the question one of the hottest quests in materials science. And now that we can explain how the hidden order in materials occurs, in a manner that has never been seen before, we have solved one of the most important problems of our day in this scientific field," says Professor Peter Oppeneer.

Four physicists from Uppsala University, led by Peter Oppeneer and in collaboration with John Mydosh from the University of Cologne, who discovered the hidden order 24 years ago, show through large-scale calculations how the hidden order occurs.

Extremely small magnetic fluctuations prompt changes in the macroscopic properties of the material, so an entirely new phase arises, with different properties.

"Never before have we seen the so-called 'magnetic spin excitations' produce a phase transition and the formation of a new phase. In ordinary materials such excitation cannot change the phase and properties of the material because it is too weak. But now we have shown that this is in fact possible," says Peter Oppeneer.

What explains in detail all of the physical phenomena in the hidden order is a computer-based theory. Among other applications, it can be used to better understand high-temperature superconducting materials and will thus be important in the development of new superconducting materials and our future energy supply.

Related Links
Uppsala University
Space Technology News - Applications and Research



Memory Foam Mattress Review
Newsletters :: SpaceDaily :: SpaceWar :: TerraDaily :: Energy Daily
XML Feeds :: Space News :: Earth News :: War News :: Solar Energy News


Team Develops New Metamaterial Device
Chestnut Hill MA (SPX) Feb 25, 2009
An engineered metamaterial proved it can function as a state-of-the-art device in the complex terahertz range of the electromagnetic spectrum, setting a standard of performance for modulating tiny waves of radiation, according to a team of researchers from Boston College, the Los Alamos and Sandia national laboratories, and Boston University.







  • Mobile phone showcase reveals trends to watch
  • Search engine accuses Google of antitrust violations
  • Facebook reassures users in wake of service terms change
  • Taiwan's Acer moves into mobile phones

  • South Korea Warns North Satellite Launch Would Breach UN Order
  • DPRK To Test-Fire Satellite
  • Kepler One Step Closer To Launch
  • Perfection Is And Always Will Be The Standard At Patrick AFB

  • Major airlines call for climate deal to include aviation
  • Swiss aircraft firm to cut jobs in Ireland
  • Bank of China extends massive credit to state aircraft maker
  • Shanghai Airlines seeks capital injection

  • Boeing Delivers First Communications Payload To MUOS Prime Contractor
  • Raytheon Delivers Final Sentinel R Mk 1 Aircraft For UK ASTOR System
  • USAF Awards LockMart Team Contract To Extend TSAT Risk Reduction/System Definition Phase
  • Major Test Of Second Advanced EHF MilComms Satellite Underway

  • NASA mission to monitor carbon dioxide fails
  • One Of The Most Important Problems In Materials Science Solved
  • Team Develops New Metamaterial Device
  • Eight Years In Orbit For Swedish Research Satellite

  • Raytheon Makes Executive Changes In Space Business
  • George Preston Chosen For 2009 Henry Norris Russell Lectureship
  • Stevens New Director Of Communications And Public Outreach For Space Foundation
  • ATK Appoints Blake Larson To Lead Space Systems Group

  • Orbital's Launch Of Taurus Rocket Is Unsuccessful
  • Counting Carbon
  • Five Things About The Orbiting Carbon Observatory
  • Google shoots down 'Atlantis' pictures

  • Geocache On The Go With Your iPhone
  • TWIG Launches TWIG Protector
  • Mobile Phone Navigation For Carriers Worldwide
  • Location Based Technologies Launches Additional PocketFinder Smartphone Apps

  • The content herein, unless otherwise known to be public domain, are Copyright Space.TV Corporation. AFP and UPI Wire Stories are copyright Agence France-Presse and United Press International. ESA Portal Reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. Advertising does not imply endorsement, agreement or approval of any opinions, statements or information provided by Space.TV Corp on any Web page published or hosted by Space.TV Corp. Privacy Statement