A Review of the Panel Discussion on Advances in Millimeter-Wave Subsystems

Horton, J.B.; Oxley, T.H.

doi:10.1109/tmtt.1985.1133250

Cited by 5 publications

(4 citation statements)

References 4 publications

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“…It is associated with limited possibilities of adjusting the chains connection coefficients because of decrease, according to (2), of HR hyrotropic activity and strong orientation and temperature dependence of resonance frequency of highly-anisotropic HR.…”

Section: Gyromagnetic Resonators Filtersmentioning

confidence: 99%

“…In recent years considerable interest has been taken in the millimeter and sub-millimeter wave bands [1,2]. This interest is stimulated to a great extent by expanding commercial field of application including all types of communication systems, short range radars and remote sensing, medical equipment and experimental apparatus [3].…”

Section: Introductionmentioning

confidence: 99%

“…The main difficulty is caused by a wide variety of possible ways and absence of ulniversally accepted rules of selection (standardization). Almost all known waveguide structures being used for the transmission of electromagnetic waves including optical ones can be used more or less effectively in the millimeter and sub-millimeter wave band [1][2][3][4]. This is true to some extent for ferrite components and devices.…”

Section: Introductionmentioning

confidence: 99%

“…For the ferrite devices based on FMR the equation (1) becomes [6]: (2) Kit z 4;M 2AH where 2AH -the width of the resonant curve.…”

Section: Introductionmentioning

confidence: 99%

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State of the art millimeter and sub-millimeter wave ferrite components and devices

Lebed¹,

Voronkov²

1996

26th European Microwave Conference, 1996

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The nearest decade development of radio-electronics will be to a great extent related with the mastering of millimeter and submillimeter wave band. This process is considerably stimulated by a great success in development of electronic components for millimeter and sub-millimeter wave bands. So, substantial progress has been achieved in the field of development and production of key componentssufficiently reliable sources of oscillation in the stated bands. Development and putting ferrite devices and apparatus into industry production is one of the key problems of millimeter and sub-millimeter wave band mastering. The ferrite devices are known to be the main type of non-reciprocal passive devices in microwave range. Rather substantial role belongs to ferrite devices in the field of propagation conditions control for the waves in this range. In the present paper the authors consider state-of-art, achieved level of development and the nearest perspectives of creation of ferrite devices for the stated range. The consideration is carried out on the basis of example of typical ferrite devices: non-reciprocal (isolators and circulators) as well as controlled ones (filters and phase-shifters). Just these groups of devices define the state-of-art and the level of development of ferrite device engineering.

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Section: Gyromagnetic Resonators Filtersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…For the ferrite devices based on FMR the equation (1) becomes [6]: (2) Kit z 4;M 2AH where 2AH -the width of the resonant curve.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

State of the art millimeter and sub-millimeter wave ferrite components and devices

Lebed¹,

Voronkov²

1996

26th European Microwave Conference, 1996

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Ultralow loss dielectric ribbon waveguide for millimeter/submillimeter waves

Yeh

Shimabukuro

Chu

1989

Applied Physics Letters

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By using high dielectric constant and low-loss dielectric material such as quartz, alumina, or sapphire and by specifically configuring the waveguide structure, we have succeeded in designing a waveguide for the millimeter/submillimeter wavelength range which yields an attenuation constant for the dominant mode that is more than 100 times below that for an equivalent circular dielectric rod with identical cross-sectional area. This waveguide takes the form of a thin dielectric ribbon surrounded by lossless dry air and possesses an attenuation constant as low as 20 dB/km. Analytical results on the attenuation constant and field extent of the dominant mode on this ribbon structure for several promising materials are given. Experiments have also been performed on ribbon guides made with rexolite. Excellent agreement was found between predicted and measured results.

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A low-loss unidirectional dielectric radiator (UDR) for antenna and space power combining circuits

Bosisio

1994

IEEE Trans. Microwave Theory Techn.

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A Review of the Panel Discussion on Advances in Millimeter-Wave Subsystems

Cited by 5 publications

References 4 publications

State of the art millimeter and sub-millimeter wave ferrite components and devices

State of the art millimeter and sub-millimeter wave ferrite components and devices

Ultralow loss dielectric ribbon waveguide for millimeter/submillimeter waves

A low-loss unidirectional dielectric radiator (UDR) for antenna and space power combining circuits

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