Bi kagome sublattice distortions by quenching and flux pinning in superconducting RbBi\(_2\)
The properties of RbBi\(_2\), a 4.15 K superconductor, were investigated using magnetic field, pressure and neutron diffraction. Under hydrostatic pressure, an almost 50 % reduction of T\(_c\) is observed, linked to a low Debye temperature estimated at 165 K. The resistivity and magnetic susceptibil...
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| description | The properties of RbBi\(_2\), a 4.15 K superconductor, were investigated using magnetic field, pressure and neutron diffraction. Under hydrostatic pressure, an almost 50 % reduction of T\(_c\) is observed, linked to a low Debye temperature estimated at 165 K. The resistivity and magnetic susceptibility were measured on quenched and slow-cooled polycrystalline samples. The resistivity follows a low temperature power-law dependence in both types of samples, while the diamagnetic susceptibility, \(\chi\), is dependent on the sample cooling history. Slow-cooled samples have a \(\chi= -1\) while quenched samples have \(\chi< -1\) due to grain size differences. Evidence of the effects of the cooling rate is also discerned from the local structure, obtained by neutron diffraction and the pair density function analysis. Slow-cooled samples have structurally symmetric Bi hexagons, in contrast to quenched samples in which disorder is manifested in periodic distortions of the Bi hexagonal rings of the kagome sublattice. Disorder may lead to flux pinning that reduces vortex mobility, but T\(_c\) remains unaffected by the cooling rate. |
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Under hydrostatic pressure, an almost 50 % reduction of T\(_c\) is observed, linked to a low Debye temperature estimated at 165 K. The resistivity and magnetic susceptibility were measured on quenched and slow-cooled polycrystalline samples. The resistivity follows a low temperature power-law dependence in both types of samples, while the diamagnetic susceptibility, \(\chi\), is dependent on the sample cooling history. Slow-cooled samples have a \(\chi= -1\) while quenched samples have \(\chi< -1\) due to grain size differences. Evidence of the effects of the cooling rate is also discerned from the local structure, obtained by neutron diffraction and the pair density function analysis. Slow-cooled samples have structurally symmetric Bi hexagons, in contrast to quenched samples in which disorder is manifested in periodic distortions of the Bi hexagonal rings of the kagome sublattice. 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| subjects | Cooling Cooling rate Debye temperature Diamagnetism Electrical resistivity Flux pinning Function analysis Grain size Hexagons Hydrostatic pressure Low temperature Magnetic permeability Neutron diffraction Neutrons Quenching Temperature dependence |
| title | Bi kagome sublattice distortions by quenching and flux pinning in superconducting RbBi\(_2\) |
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