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Researchers solve one mystery of high-temperature superconductors
Date: Saturday, December 03, 2005 @ 22:01:57 UTC Topic: Science
An experimental mystery – the origin of the insulating
state in a class of materials known as doped Mott insulators – has been
solved by researchers at the University of Illinois at
Urbana-Champaign. The solution helps explain the bizarre behavior of
doped Mott insulators, such as high-temperature copper-oxide
superconductors.
In a paper published in the Nov. 2 issue of the journal Physical Review Letters,
physics professor Philip Phillips and graduate student Ting-Pong Choy
show that lightly doped Mott insulators are, in fact, still insulators.
The scientists’ theoretical results confirm previous experimental
findings obtained by other researchers.
Unlike low-temperature superconductors, which are metals,
high-temperature superconductors are insulators in their normal state.
This has puzzled scientists, because half of the electron states are
empty.
“Mott insulators have many available states for electrons to
occupy, so you would expect these materials to conduct like metals,”
Phillips said. “Experiments have shown, however, that they act as
insulators.”
Even more surprising, when Mott insulators are lightly doped with
holes – thereby creating even more places for electrons to occupy – the
material still refuses to conduct.
Strong electron interaction is the key to understanding doped Mott
insulators, Phillips said. “All energy scales are inextricably coupled.
If you attempt to separate them, you destroy the physics of the Mott
state.”
The fact that lightly doped
Mott insulators are still insulators is an intrinsic property of Mott
physics (that is, Mottness), the researchers claim. The insulating
state is not caused by disorder, exotic excitations or something
external to the system.
“In most materials, if you kill superconductivity by applying a
large magnetic field, the resistivity falls to some finite value,”
Phillips said. “In doped Mott insulators, however, the resistivity
climbs to infinity. The background state uncovered as a result of
destroying superconductivity is an insulating state.”
A future experiment could easily prove the researchers’ claims.
While chemical doping causes disorder in the material, the technique of
photodoping creates holes without causing disorder.
“If experimenters create such holes and still see this insulating
state, then we will know for a fact that insulating doped Mott
insulators is due to Mottness,” Phillips said.
Source: University of Illinois at Urbana-Champaign
http://www.physorg.com/news8512.html
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