2007
DOI: 10.1103/physrevb.76.012505
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Pressure-induced superconductivity in Sc to74GPa

Abstract: Using a diamond anvil cell with nearly hydrostatic helium pressure medium we have significantly extended the superconducting phase diagram T c (P ) of Sc, the lightest of all transition metals. We find that superconductivity is induced in Sc under pressure, T c increasing monotonically to 8.2 K at 74.2 GPa. The T c (P ) dependences of the trivalent d-electron metals Sc, Y, La, and Lu are compared and discussed within a simple s → d charge transfer framework.

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Cited by 29 publications
(35 citation statements)
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“…3a, at 81 GPa a superconducting transition does appear where T c increases with pressure to a value as high as 19.6 K at 107 GPa, but then drops to a much lower temperature at 123 GPa. The magnitude of the superconducting transition (∼ 20-30 nV), which is consistent with 100% shielding, is much larger than that (∼ 3-4 nV) in the previous nearly hydrostatic experiments on Sc by Hamlin et al [23] to 74.2 GPa. This is due to the larger sample volume and larger demagnetization factor in the present nonhydrostatic experiments.…”
Section: Sc Metalmentioning
confidence: 62%
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“…3a, at 81 GPa a superconducting transition does appear where T c increases with pressure to a value as high as 19.6 K at 107 GPa, but then drops to a much lower temperature at 123 GPa. The magnitude of the superconducting transition (∼ 20-30 nV), which is consistent with 100% shielding, is much larger than that (∼ 3-4 nV) in the previous nearly hydrostatic experiments on Sc by Hamlin et al [23] to 74.2 GPa. This is due to the larger sample volume and larger demagnetization factor in the present nonhydrostatic experiments.…”
Section: Sc Metalmentioning
confidence: 62%
“…For this reason the superconducting transition of the sample can only be reliably detected if it occurs at a temperature T c 5.5 K. A relatively low noise level of a few tenths of a nanovolt is achieved by: (a) using the transformer preamplifier to ensure good impedance matching, (b) varying the temperature very slowly (100 mK/min) at low temperatures, (c) using a long time constant (> 3 s) on the lock-in amplifier, and (d) averaging over 2-3 measurements. Further experimental details of the high pressure and ac susceptibility techniques are published elsewhere [23,27,31].…”
Section: Methodsmentioning
confidence: 99%
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“…Both Sr and Ba are superconductors at high pressure and the critical temperature T C increases with pressure (10). The Sc-II phase was found to be superconducting (11) and recent observations show that T C also increases monotonically with pressure (12). Following through the arguments given above, one can expect Ca to undergo a similar transition to a complex phase at very high pressures.…”
mentioning
confidence: 93%
“…T c increases with increasing pressure and exceeds 20 K at ~100 GPa [2], which is the highest T c in all elemental metals. Sc exhibits a superconducting transition above ~60 GPa, which approaches 20 K at 107 GPa [3,4]. At higher pressures, however, Sc undergoes a structural phase transition to a nonsuperconducting phase (Sc-III).…”
mentioning
confidence: 99%