1997
DOI: 10.1051/jp4:1997104
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Microwave Ferrites : the Present and the Future

Abstract: The state of the art of microwave ferrite technology in Russia is reviewed. The paper gives some generalization with respect to the future progress in the field, where the one of major tasks is likely to be a development of specialized gyromagnetics for mm-and sub-mm-range devices.

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Cited by 6 publications
(4 citation statements)
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“…In fact, by applying Ampère law to the magnetic circuit in Fig. 3, we obtain (9) The integration surface , in (9), is the rectangular plane corresponding to the closed path , and is the associated Stoke's normal. Since inside the perfect magnetic wires (path ), the magnetic voltage corresponding to cannot be zero, , and therefore, .…”
Section: B Mgtlmentioning
confidence: 99%
“…In fact, by applying Ampère law to the magnetic circuit in Fig. 3, we obtain (9) The integration surface , in (9), is the rectangular plane corresponding to the closed path , and is the associated Stoke's normal. Since inside the perfect magnetic wires (path ), the magnetic voltage corresponding to cannot be zero, , and therefore, .…”
Section: B Mgtlmentioning
confidence: 99%
“…where γ is the gyromagnetic ratio (2.8 MHz/Oe) f is the center or operating frequency in (Hz) H a is an isotropic field in the range (0-100 Oe) BW is the operation bandwidth in (Hz) Ferrite materials on the market typically have a saturation magnetization in the range of 90-5000 gauss and a resonance line width from 0.5-2500 oersted. They can operate between 0.02 and 94 GHz [4]. If we assume that the ferrite disk is saturated in the Z -direction, the elements of the permeability tensor can be expressed in Cartesian coordinates as [8]:…”
Section: Unified Closed Form Solution a Microwave Ferrite Calculationmentioning
confidence: 99%
“…operation of a circulator relies on magnetized microwave ferrite [1], [2], a ceramic material with non-reciprocal behavior, meaning that its behavior in one direction is very different from that in the other direction [3], [4], [5]. A circulator is an important microwave device that has been used in wireless communication, radar, satellite payload, medical, military and defense applications, laboratory measurements and industrial microwave heating.…”
Section: Introductionmentioning
confidence: 99%
“…In preparation of microwave ferrite materials, particular attention should be given to the purity of the raw materials, stoichiometry of the composition and porosity as well as grain characteristics of the final product. Characteristics of various microwave ferrites have been minutely reported by Voronkov et al [5]. The emergence of Li ferrite as a competent material in microwave devices has resulted from some appropriate chemical substitutions made in it, which in turn result in low dielectric loss tangent, a low magnetic loss tangent at the operating bias field, a low coercive force and a large remanence ratio [6][7][8].…”
Section: Introductionmentioning
confidence: 99%