N. E. Sluchanko, A. V. Bogach, V. V. Glushkov, S. V. Demishev, K. S. Lyubshov, D. N. Sluchanko, A. V. Levchenko, A. B. Dukhnenko, V. B. Filipov, S. Gabani, K. Flachbart, “Antiferromagnetic instability and the metal-insulator transition in $\mathrm{Tm}_{1-x}\mathrm{Yb}_x\mathrm B_{12}$ rare earth dodecaborides”, Pis'ma v Zh. Èksper. Teoret. Fiz., 2009, Volume 89, Issue 5,Pages <nobr>298

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Antiferromagnetic instability and the metal-insulator transition in $\mathrm{Tm}_{1-x}\mathrm{Yb}_x\mathrm B_{12}$ rare earth dodecaborides

N. E. Sluchanko^a, A. V. Bogach^a, V. V. Glushkov^ab, S. V. Demishev^ab, K. S. Lyubshov^ab, D. N. Sluchanko^a, A. V. Levchenko^c, A. B. Dukhnenko^c, V. B. Filipov^c, S. Gabani^d, K. Flachbart^d

^a General Physics Institute named after A. M. Prokhorov, Russian Academy of Sciences
^b Moscow Institute of Physics and Technology
^c Institute of Materials Science Problems, National Academy of Sciences of Ukraine
^d Institute of Experimental Physics, Slovak Academy of Sciences

Abstract: The magnetic and transport characteristics of substitutional solid solutions of the Tm_1−xYb_xB₁₂ rare earth dodecaborides have been investigated. The measurements performed in the wide temperature range 1.8−300 K on the high-quality single-crystalline samples make it possible to conclude that as x increases, antiferromagnetic instability develops with the quantum critical point (T _N = 0) near x = 0.3 and relevant dielectrization of the electron structure in the range 0 ≤ x ≤ 0.8 takes place. With the results of the thermoelectric measurements in Tm_1−xYb_xB₁₂, the activation energy values and their dependence on x have been determined.

PACS: 75.30.Fv, 75.30.Gw, 75.30.Mb

Received: 23.12.2008
Revised: 05.02.2009