RU2647544C1 - Spin-glass magnetic material with the content of itterbia - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to the development of new ceramic rare-earth oxide materials with a magnetic spin glass state and can be applied in the chemical industry and electronic engineering, in particular, for the development of models of new types of magnetic memory devices. Spin-glass magnetic material YbFeTi₂O₇ includes iron, titanium, oxygen and ytterbium with the following component ratio, at%: ytterbium 9.09; iron – 9.09; titanium – 18.18; oxygen – 63.64. Method for producing the ytterbium-containing spin-glass material includes the preparation of a charge of oxides Fe₂O₃, Yb₂O₃ and TiO₂, molding of tablets and their sintering in four stages with a maximum annealing temperature of 1,250 °C.

EFFECT: technical result of the invention is the production of a new magnetic material with a state of spin glass and containing a rare-earth element with low values of a capture cross-section and resistivity.

1 cl, 3 tbl, 2 dwg

Description

The invention relates to the field of obtaining new magnetic materials, namely, oxide ceramic materials with a magnetic state of spin glass, characterized by a degenerate magnetic state, and can find application in the chemical industry and electronic technology, in particular, to develop models of new types of magnetic memory devices.

Due to the relentless interest in the search for new materials promising for use in various fields of technology, the targeted production of substances with various magnetic properties and types of magnetic ordering is one of the urgent problems of condensed matter physics. The development and creation of magnetic materials, including oxide compounds containing rare earth elements and transition metal elements, requires an investigation of their properties. Among the methods of study, neutron diffraction is important, which allows information on the magnetic structure of the material, on the magnetic phase states and their change.

Known oxide compound GdFeTi ₂ O ₇ containing a rare earth element, [G.A. Petrakovsky, T.V. Drokina, D.A. Velikanov, O.A. Bayukov, M.S. Molokeev, A.V. Kartashev, A.L. Shadrina A.A. Mitsuk FTT 54, 1701 (2012)], which has the properties of spin glass.

This material contains gadolinium, which significantly absorbs neutrons (neutron capture cross section 44,000 barn) and has a high electrical resistance (141 ohm * cm * 10 ^-6 ).

The closest analogue adopted for the prototype is a samarium-containing spin-glass magnetic material SmFeTi ₂ O ₇ [patent RU No. 2470897 C2, IPC C04B 35/40, publ. December 27, 2012], which includes magnetic ions of iron and samarium, as well as titanium and oxygen in the following ratio of at. %: Fe - 9.09; Ti 18.18; O - 63.64; Sm - 9.09.

A disadvantage of the known technical solution is the content of samarium, characterized by high neutron absorption, which complicates the use of neutron diffraction for the study of properties, and high electrical resistance.

The technical result of the invention is to obtain a new magnetic material with the state of spin glass and containing a rare-earth element with low values of the thermal neutron capture cross section and electrical resistivity.

The specified technical result is achieved by the fact that in a spin-glass magnetic material including iron, titanium, oxygen and a rare earth element, it is new that ytterbium is contained as a rare earth element, with the following ratio of components, at. %: ytterbium - 9.09; iron - 9.09; titanium - 18.18; oxygen is 63.64.

Comparative analysis with the prototype allows us to conclude that the claimed invention differs from the known one in composition, contains ytterbium with a low neutron capture cross section that allows neutron diffraction studies and with better electrical conductivity among lanthanides.

Signs that distinguish the claimed solution from the prototype are not identified in the study of this and related areas of technology and, therefore, provide the claimed technical solution according to the criteria of "novelty" and "inventive step".

Substitution in the composition of the known technical solution of samarium for ytterbium eliminates these disadvantages of the prototype. Two types of magnetic ions participate in the formation of the magnetic state: rare-earth ion Yb ³⁺ and iron ion Fe ³⁺ . The inventive material has a magnetic state of spin glass, contains ytterbium, weakly absorbing neutrons (ytterbium neutron capture cross section is 36 bar, in comparison, samarium is 6800 bar) and is characterized by a low electrical resistivity (27 ohm * cm * 10 ^-6 , in comparison, for samarium, the electrical resistivity is 88 ohm * cm * 10 ^-6 ).

A method of obtaining ytterbium-containing spin-glass magnetic material is a solid-phase synthesis. As the starting components are used oxides Fe ₂ O ₃ , TiO ₂ and Yb ₂ O ₃ in the following ratio, wt.%:

Fe ₂ O ₃ - 18.29; TiO ₂ 36.58; Yb ₂ O ₃ - 45.13.

The starting compounds that make up the charge are dried before being weighed, then mixed and frayed with ethyl alcohol. From the prepared mixture, tablets are formed under a pressure of about 10 kbar with a diameter of 10 mm and a thickness of 1.5-2.0 mm. The resulting tablets are annealed in an oven in four stages (table. 1). The maximum temperature of each annealing is 1250 ° C. After the completion of each stage of the synthesis, the tablets are ground, pressed and placed in an oven for subsequent annealing.

The content of elements in the material YbFeTi ₂ O _{7 are} shown in table 2.

The claimed technical solution is illustrated by the following:

The analysis of the synthesized samples (Fig. 1) was carried out using x-ray diffraction. An X-ray powder diffraction pattern of YbFeTi ₂ O _{7 was} recorded at room temperature on a Bruker D8 ADVANCE diffractometer using a VANTEC linear detector and Cu-Kα radiation. Table 3 shows the results of refining the crystal structure of the YbFeTi ₂ O ₇ compound and the main parameters of the X-ray experiment. X-ray diffraction studies showed that the crystal lattice of the YbFeTi ₂ O ₇ compound is characterized by the rhombic space group Pcnb.

In FIG. 2 shows the temperature dependence of the magnetic moment of the claimed ytterbium compound. The measurements were carried out in a magnetic field H = 0.05 T. The mass of the sample is m = 0.045 g. The results of magnetic measurements showed that there is a difference in the dependences FC (cooling of the sample in a magnetic field H = 0.05 T) and ZFC (cooling of the sample in zero magnetic field). Thus, the magnetic moment depends on the magnetic background of the sample at temperatures below the freezing temperature T _f = 4.5 K. This is a characteristic feature of substances with a spin-glass magnetic state.

Thus, the claimed material obtained from iron oxides, titanium, ytterbium has a magnetic state of spin glass and contains ytterbium with low values of electrical resistance and neutron capture cross section.

The resulting new magnetic material, corresponding to the formula YbFeTi ₂ O ₇ , expands the class of compounds with the magnetic state of spin glass.

Claims (2)

Spin-glass magnetic material containing ytterbium, including iron, titanium, oxygen and a rare earth element, characterized in that it contains ytterbium as a rare-earth element in the following ratio of components, at.%: ytterbium 9.09 iron 9.09 titanium 18.18 oxygen 63.64

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