Magnetic quantum oscillations in borocarbide superconductors

Magnetic quantum oscillations in borocarbide superconductors

Тема: Электронные свойства проводящих систем

Інший ID: PACS: 74.70.Dd, 71.18.+y, 74.25.Jb

URI: http://dspace.nbuv.gov.ua/handle/123456789/117357

Посилання: Magnetic quantum oscillations in borocarbide superconductors / B. Bergk, J. Wosnitza // Физика низких температур. — 2009. — Т. 35, № 8-9. — С. 872-878. — Бібліогр.: 45 назв. — англ.

Підтримка: We acknowledge P.C. Canfield and G. Behr for supplying the high-quality samples, H. Rosner, V. Petzold, and S.-L. Drechsler for their theoretical input, A. D. Bianchi, M. Bartkowiak, O. Ignatchik, I. Sheikin, and J. Perenboom for experimental support. We thank all of them for helpful discussions. The work was supported by the DFG through SFB 463. Part of this work has been supported by EuroMagNET under the EU contract RII3-CT-2004-506239 of FP6. The work at GHMFL was supported by the EC program Transnational Access — Specific Support Action (Contract No. RITA-CT-2003-505474) .Work at the Ames Laboratory was supported by the Department of Energy, Basic Energy Sciences under Contract No. DE-AC02-07CH11358.

Дата: 2009

Завантажень: 627

Magnetic quantum oscillations in borocarbide superconductors

Анотація:

We report systematic de Haas–van Alphen (dHvA) investigations in the normal and superconducting state of RNi₂B₂C (R = Y and Lu). The observed rich frequency spectrum of the dHvA signals results from a rather complex electronic band structure with different open and closed Fermi-surface sheets. From our data in combination with full-potential local-orbital calculations we are able to extract the angular-resolved mass-enhancement factors, λ, for different bands. We find a strong anisotropy and band dependence of λ, clearly reflecting the multiband character of the superconductivity in RNi₂B₂C. We further were able to resolve dHvA oscillations deep into the superconducting state. The observed additional damping of the dHvA amplitudes is much less than expected from most theories. This hints at a reduced or even zero superconducting gap for the detected Fermi surface.

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