Dielectric tapered rod antennas for millimeter-wave applications

Kobayashi, S.; Mittra, R.; Lampe, R.

doi:10.1109/tap.1982.1142758

Cited by 97 publications

(28 citation statements)

References 4 publications

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“…We designed and fabricated a novel antenna structure, 8 whose form is similar to microwave dielectric rod antennas. 9 To enable wide-band electromagnetic radiation, we fabricated the antennas by lithographically etching trenches along the single-mode SOI waveguide structure (220 nm tall and 450 nm high). The signal power traveling in the waveguide will radiate from the antennas and form a beam pattern toward a certain angle.…”

Section: Physical Design and Integrationmentioning

confidence: 99%

Global On-Chip Coordination at Light Speed

Mohamed

Zhou

et al. 2010

IEEE Des. Test. Comput.

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Section: Physical Design and Integrationmentioning

confidence: 99%

Global On-Chip Coordination at Light Speed

Mohamed

Zhou

et al. 2010

IEEE Des. Test. Comput.

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“…Kobayashi et al [9] published experimental results for a LWA based on a WG26 size dielectric guide. Example 2 compares his results with those calculated using the present method.…”

Section: Validation and Applicationmentioning

confidence: 99%

Simple estimation formulas for rectangular dielectric waveguide single‐mode range and propagation constant

Hamilton

Green

Leeson

2007

Micro & Optical Tech Letters

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“…Kobayashi and Mittra developed tapered dielectric rod antennas of rectangular cross section in millimeter wave dielectric integrated circuits in [3]. De and Attimarad performed accurate numerical solutions using Ritz-Galerkin variational approach with appropriate sets of expanding functions to obtain the scattering parameters of the two dimensional tapered dielectric waveguide in [4].…”

Section: Introductionmentioning

confidence: 99%

Inexpensive and Easy Fabrication of Multi-Mode Tapered Dielectric Circular Probes at Millimeter Wave Frequencies

Zhu¹,

Stiens²,

Matvejev³

et al. 2012

PIER

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Abstract-Tapered dielectric fibers are widely used in the near field microscopy to focus the incident beam or collect near field signal. Single mode is always required so that the geometrical dimension of the waveguide is smaller than the wavelength. This paper proposes an inexpensive and easy fabrication of multimode tapered Teflon probe which has bigger dimensions than the wavelength. The field distribution in and outside the probe is analyzed by the total internal reflection theorem and solid core circular dielectric waveguide theory. Simulations are carried out in Microwave Studio CST. Novel applications based on focal points in and outside the probe are discussed, especially dielectric permittivity sensing of biomolecules using a capillary tube is emphasized by the simulations and experiments.

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Dielectric tapered rod antennas for millimeter-wave applications

Cited by 97 publications

References 4 publications

Global On-Chip Coordination at Light Speed

Global On-Chip Coordination at Light Speed

Simple estimation formulas for rectangular dielectric waveguide single‐mode range and propagation constant

Inexpensive and Easy Fabrication of Multi-Mode Tapered Dielectric Circular Probes at Millimeter Wave Frequencies

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