FIELD: ferrite monocrystalline materials. SUBSTANCE: crystal has chemical formula {Ca3} [Fe2-y-zInyNbz](F3-xVx)O12 where x = 1.36-1.41, y = 0.22-0.25, z = 0.09-0.14, ratio In : Nb = 2.20-3.02. Saturation of magnetization 4πMs = 50-150 Gs, magnetic field of crystallographic anisotropy - HA is 25 E, not less, curve broad of ferromagnetic resonance ΔH = 0.3-0.8 E. Devices work at the frequency range 100-500 MHz. EFFECT: enhanced quality of material. 1 tbl
| Title | Year | Author | Number |
|---|---|---|---|
| MONOCRYSTALLINE MAGNETIC MATERIAL ON THE BASIS OF CA-V-FERROGARNET | 1989 |
|
SU1658676A1 |
| MONOCRYSTALLINE MATERIAL BASED ON BARIUM HEXAFERRITE | 1990 |
|
SU1693908A1 |
| METHOD FOR OBTAINING SINGLE-CRYSTAL FILMS OF YTTRIUM IRON GARNET WITH ZERO MISMATCH BETWEEN THE PARAMETERS OF THE CRYSTAL LATTICE OF THE FILM AND SUBSTRATE | 2022 |
|
RU2791730C1 |
| 0 |
|
SU361473A1 | |
| METHOD OF MEASURING MAGNETIC PARAMETERS OF NANOMATERIALS | 2010 |
|
RU2449303C1 |
| METHOD FOR GRADING FERROGARNET MONOCRYSTALS | 1986 |
|
SU1450612A1 |
| METHOD OF CONTROLLING MAGNETOELASTIC COUPLING USING COHERENT OPTICAL LASER RADIATION IN FERRITE-GARNET EPITAXIAL FILMS | 2021 |
|
RU2767375C1 |
| FERRITE MATERIAL | 0 |
|
SU1152046A1 |
| EPITAXIAL FERRITE CARNET STRUCTURE | 1992 |
|
RU2061112C1 |
| MONOCRYSTAL FERRITE MATERIAL | 0 |
|
SU704373A1 |
