A1 Refereed original research article in a scientific journal

Electrical and Magnetic Properties of Pb and In Nanofilaments in Asbestos near the Superconducting Transition




AuthorsA. V. Chernyaev, N. Yu. Mikhailin, D. V. Shamshur, Yu. A. Kumzerov, A. V. Fokin, A. E. Kalmykov, R. V. Parfen’ev, L.M. Sorokin, A. Lashkul

PublisherPleiades Publishing, Ltd.

Publication year2018

JournalFizika Tverdogo Tela / Physics of the Solid State

Volume60

Issue10

First page 1935

Last page1941

Number of pages7

ISSN1063-7834

eISSN1090-6460

DOIhttps://doi.org/10.1134/S1063783418100050


Abstract

Bulk nanocomposites based on superconducting metals Pb and In embedded into matrices of natural chrysotile asbestos with the nanotube internal diameter d ~ 6 nm have been fabricated and studied. The low-temperature electrical and magnetic properties of the nanocomposites demonstrate the superconducting transition with the transition critical temperature Tc ≈ (7.18 ± 0.02) K for the Pb–asbestos nanocomposite (this temperature is close to Tc bulk = 7.196 K for bulk Pb). The electrical measurements show that In nanofilaments in asbestos have Tc ~ 3.5–3.6 K that is higher than Tc bulk = 3.41 K for bulk In. It is shown that the temperature smearing of the superconducting transition in the temperature dependences of the resistance R(T) ΔT ≈ 0.06 K for the Pb–asbestos and ΔT ≈ 1.8 K for the In–asbestos are adequately described by the fluctuation Aslamazov–Larkin and Langer–Ambegaokar theories. The resistive measurements show that the critical magnetic fields of the nanofilaments extrapolated to T = 0 K are Hc(0) ~ 47 kOe for Pb in asbestos and Hc(0) ~ 1.5 kOe for In in asbestos; these values are significantly higher than the values for the bulk materials (HH bulk c  Hcbulk

= 803 Oe for Pb and H bulk c  Hcbulk

= 285 Oe for In). The results of the electrical measurements for Pb‒asbestos and In–asbestos agree with the data for the magnetic-field dependences of the magnetic moment in these nanocomposites.



Last updated on 2024-26-11 at 12:08