Erzeugung und Ausheilung von Gitterst�rungen und ihr Einflu� auf die Supraleitung von Indium und Thallium

Hasse, J.; Seifritz, W.

doi:10.1007/bf01326459

Cited by 19 publications

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“…I n contrast, the results of Hasse and Seifritz [13] for an I n sample of comparable purity, which was deformed by torsion to a much larger Ae0 (50 x 10-9 Qcm), showed little recovery below 30 O K , but pronounced recovery stages a t rn 85 O K and -130 O K (Fig. 3).…”

Section: Indiummentioning

confidence: 78%

“…The sample was deformed. alinealed to 60 OK and then deformed again anneohg tempruhe Plr' l-However, similarly large deformations of I n and T1 a t 4.2 O K by torsion decreased T, by a few hundredths or thousands of a degree [13]. The situation is somewhat confused by the fact that other metals, such as Pb, exhibit little change in 17, after either rolling I161 or torsional deformation [17].…”

Section: Metals Deformed In Tension [4]mentioning

confidence: 99%

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Low temperature recovery of plastically deformed cadmium, indium, tin, and lead

Swanson

Quenneville

1972

Phys. Stat. Sol. (a)

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The recovery of the electrical resistivity increment produced by tensile plastic deformation of Cd, In, and Pb, and by compressive plastic deformation of In and Sn has been investigated. The isochronal recovery of Cd has many similarities to the recovery after thermal neutron irradiation, with recovery stages at 4 to 10 °K, 10 to 20 °K, and 60 to 75 °K. Recovery stages were observed for Pb at 9, 70, 160, and 280 °K. The 70 °K stage is attributed to migration of intrinsic defects, perhaps self‐interstitials, the 160 °K stage tentatively to migration of vacancies and the 280 °K stage to recrystallization. For Sn, the superconducting transition temperature Tc was increased 0.11 °K by a compressive deformation at 4.2 °K which produced a resistivity increment Δϱ0 = 8.6 × 10−8 Ω cm. Since the recovery of ΔTc was almost complete at 120 °K, while the recovery of Δϱ was less than 50%, it is concluded that point defects caused the change in Tc for Sn.

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Section: Indiummentioning

confidence: 78%

Section: Metals Deformed In Tension [4]mentioning

confidence: 99%

Low temperature recovery of plastically deformed cadmium, indium, tin, and lead

Swanson

Quenneville

1972

Phys. Stat. Sol. (a)

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Einfluß der Realstruktur auf einige Eigenschaften von Supraleitern

Paufler

1974

Cryst Res and Technol

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Influence of plastic deformation on superconducting properties of V3Si single crystals

Quyen

Paufler

Berthel

et al. 1979

Phys. Stat. Sol. (a)

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Effects of the plastic deformation at elevated temperatures on the critical parameters Tc and jc of V3Si single crystals are reported. Plastic deformation can increase as well as decrease the critical temperature. The sign of the change in Tc can be attributed to different available point defect types on both sides from stoichiometry. In samples with excess V a decrease in Tc is observed combined with an increase of the electrical resistivity ratio r. The transition becomes broader and the critical current density increases with the deformation. In samples with excess Si the critical temperature is found to be increased as r decreases, at the same time the critical current density is lowered.

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Erzeugung und Ausheilung von Gitterst�rungen und ihr Einflu� auf die Supraleitung von Indium und Thallium

Cited by 19 publications

References 0 publications

Low temperature recovery of plastically deformed cadmium, indium, tin, and lead

Low temperature recovery of plastically deformed cadmium, indium, tin, and lead

Einfluß der Realstruktur auf einige Eigenschaften von Supraleitern

Influence of plastic deformation on superconducting properties of V3Si single crystals

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