Why is this important? Understandingsupersolidhelium brings us closer to understanding its close cousins superconductivity and superfluidity.
Physicists had long thought that the unusual behavior of torsion oscillators containing solid helium meant that chilling helium down to temperatures nearabsolute zeroprompts its transformation into a supersolid. It is certainly solid, but in this physical quest, there was a nagging question: Is it a true supersolid?
To gain new perspectives on solid helium, new research tools were needed."Think of this analogy: when Galileo first peered through a telescope, he saw ears onSaturn. With improved technology, humanity began to understand those ears were actually rings around the planet. And with better technology, we saw the differences in the rings. To further understand solid helium, science had to invent new approaches,"says Séamus Davis, Cornell professor of physics."Helium is a pure material. We're gaining a new understanding of the fundamental issues of how nature works, of how the universe works."
In fact, in this paper, the researchers show instead a more prosaic explanation: There are moving defects in the solid helium crystals, and their relaxation time falls with rising temperatures. This is more consistent with the torsional oscillation (shaking) experiments conducted at Cornell.
The researchers learned that the unusual properties of solidheliumdo not reflect a clunky transition between the solid state and a supersolid state. It behaves like a dimmer switch and presents a smooth transition near absolute zero.
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