W. W. Malinofsky scite author profile

Dense Nh_.Co.Fe204, with x=O, 0.028, 0.030, and 0.067, was prepared with grain sizes down to 0.1 /.I by using a previously described technique. This consists of a combination of flame-spraying to obtain the initial fine ferrite particles (down to 0.03 /.I), and hot-pressing to sinter these into single-phase bodies of near theoretical density (to 98%).The high-power microwave properties were measured in a cavity at X band with perpendicular pumping for a series of grain sizes ranging from 0.10 to 0.35 /.I. Co=0.027 was used, since the magnetocrystalline anisotropy constant Kl is theoretically zero and thus would be expected to provide minimum linewidth AH in this compositional system. Measured values of the microwave magnetic loss susceptibility under perpendicular pumping xJ.", the threshold field for the onset of the subsidiary absorption h., AH, 41rM" and density are given as a function of grain size. h. was found to increase with decreasing grain (or pore) size. This was explained on the basis that spin waves which are important at the subsidiary resonance are longer than the grain size, and therefore interact effectively with such inhomogeneities. This explanation is supported by the finding that [(hehooo-(he) u;ooJ/ (heh6oo, for H do = 1500 and 2000 Oe, decreases with decreasing grain size. xJ." passes through a minimum near 0.18 /.I in unannealed samples, but in annealed samples it decreases rather linearly with grain size. Of practical concern are the following combinations of he and xJ." which are obtainable by this method: > 105 Oe and 0.6, > 75 Oe and 0.15, compared to 16 Oe and 0.03 for a large-grained ferrite. The power ratio between the first and last is over 40.Radio-frequency properties such as /.I' and /.I" were measured from 0.1 Me/sec to 7 Gc/sec. In the dispersion curves obtained, the rf resonance frequency compared well with that calculated on the basis of the domain rotation mechanism. The static p.' had similar values to those in large-grained samples, contrary to the case of NiZn ferrites, where wall motion plays a role. The resonance frequency of the microwave peak also agreed well with that calculated from a previously derived equation.

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Fine-Grained Ferrites. I. Nickel Ferrite

Malinofsky¹,

Babbitt²

1961

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Fine-Grained Ferrites. II. Ni1−xZnxFe2O4

Malinofsky¹,

Babbitt²,

Sands³

1962

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Chemically homogeneous finegrained MnZn ferrites by spray drying (abstract)A series of fine-grained single-phase ferrites was prepared according to the formula Ni1_ x Znx Fe204, where x took the values 0, 0.1O,0.33,0.50,and 0.67. A previously-described process combining the so-called flame-spraying and hot-pressing techniques was used to obtain grain sizes of approximately 0.1 micron in the densified bodies. p.' and p." were measured to 1000 Mc, with grain size and composition as parameters. Measurements were also made to 3800 Mc on a ferrite annealed through the critical size for multidomains, confirming previously-reported theory that magnetic poles on the domain walls are the source of the microwave peak at about 2000 Me. Wall displacement appears to contribute to the static P.o in large-grained ferrites when x>O.In addition, the temperature dependence of initial permeability P.o was studied. The temperature coefficient of P.o was found to increase with grain size. While the P.o vs temperature curves were , R. F. Soohoo,

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W. W. Malinofsky

Barium Iron Oxide Isomorphs of Hexagonal and Tetragonal BaTiO₃

Chemically Deposited Thin Ferrite Films

Fine-Grained Ferrites. III. Ni1−xCoxFe2O4. High-Power Microwave and rf Properties

Fine-Grained Ferrites. I. Nickel Ferrite

Fine-Grained Ferrites. II. Ni1−xZnxFe2O4

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W. W. Malinofsky

Barium Iron Oxide Isomorphs of Hexagonal and Tetragonal BaTiO3

Chemically Deposited Thin Ferrite Films

Fine-Grained Ferrites. III. Ni1−xCoxFe2O4. High-Power Microwave and rf Properties

Fine-Grained Ferrites. I. Nickel Ferrite

Fine-Grained Ferrites. II. Ni1−xZnxFe2O4

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Product

Resources

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Barium Iron Oxide Isomorphs of Hexagonal and Tetragonal BaTiO₃