Tuning of magnetic and electronic states by control of oxygen content in lanthanum strontium cobaltites

Abstract

We report on the magnetic, resistive, and structural studies of perovskite La1/3Sr2/3CoO3-δ. By using the relation of synthesis temperature and oxygen partial pressure to oxygen stoichiometry obtained from thermogravimetric analysis, we have synthesized a series of samples with precisely controlled δ=0.00-0.49. These samples show three structural phases at δ=0.00-0.15, ≈0.25, ≈0.5, and two-phase behavior for other oxygen contents. The stoichiometric material with δ=0.00 is a cubic ferromagnetic metal with the Curie temperature T C=274 K. The increase of δ to 0.15 is followed by a linear decrease of T C to ≈ 160 K and a metal-insulator transition near the boundary of the cubic structure range. Further increase of δ results in formation of a tetragonal 2ap× 2ap × 4ap phase for δ≈ 0.25 and a brownmillerite phase for δ≈0.5. At low temperatures, these are weak ferromagnetic insulators (canted antiferromagnets) with magnetic transitions at T m≈230 and 120 K, respectively. At higher temperatures, the 2ap× 2ap × 4ap phase is G-type antiferromagnetic between 230 K and ≈360 K. Low temperature magnetic properties of this system for δ<1/3 can be described in terms of a mixture of Co3+ ions in the low-spin state and Co4+ ions in the intermediate-spin state and a possible spin transition of Co3+ to the intermediate-spin state above T C. For δ>1/3, there appears to be a combination of Co2+ and Co3+ ions, both in the high-spin state with dominating antiferromagnetic interactions.

0

Turn this paper into a full lesson

ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.

Discussion (0)

Sign in to join the discussion.

Loading comments…