High-gain, dielectric loaded, slotted waveguide antenna
First Claim
1. A high-gain, dielectric loaded, slotted waveguide antenna comprising:
- a dielectric loaded slotted waveguide element;
said dielectric loaded slotted waveguide element filled with a low loss tangent, high-voltage breakdown dielectric material;
a composite material loaded slotted waveguide element filled with low-loss tangent, high-voltage breakdown composite material with relative permittivity and permeability greater than one;
a tailored dielectric structure placed in contact with the outer surface of said slotted waveguide element;
a tailored relative permittivity and permeability material structure placed in contact with the outer surface of said slotted waveguide element;
a photonic bandgap structure placed in contact with the outer surface of said slotted waveguide element.
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Abstract
A high-gain, dielectric loaded, slotted waveguide antenna having a photonic bandgap, a high-impedance electromagnetic structure, in contact with the waveguide surface containing longitudinal slots, and a tailored dielectric material structure in contact with the outer surface of the photonic bandgap structure. The tailored dielectric structure at the inner most surface has the same effective dielectric constant of the waveguide material and the photonic bandgap structure. The effective dielectric constant is then incrementally or continuously reduced to have a dielectric constant close to that of the free-space value at the outer surface further distance from the waveguide array. The tailoring of the effective dielectric constant is achieved by layering a given number of slabs of different dielectric constants with sequentially reduced values, or by varying the chemical composition of the material, or by varying the density of the material imbedded with high dielectric constant particles.
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Citations
8 Claims
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1. A high-gain, dielectric loaded, slotted waveguide antenna comprising:
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a dielectric loaded slotted waveguide element;
said dielectric loaded slotted waveguide element filled with a low loss tangent, high-voltage breakdown dielectric material;
a composite material loaded slotted waveguide element filled with low-loss tangent, high-voltage breakdown composite material with relative permittivity and permeability greater than one;
a tailored dielectric structure placed in contact with the outer surface of said slotted waveguide element;
a tailored relative permittivity and permeability material structure placed in contact with the outer surface of said slotted waveguide element;
a photonic bandgap structure placed in contact with the outer surface of said slotted waveguide element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
a photonic band gap structure between said slotted waveguide elements and said tailored dielectric or composite materials structure.
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3. The antenna of claim 2 wherein said tailored dielectric structure has a variable dielectric constant or said tailored composite material structure has a variable relative permittivity and a variable relative permeabiltiy.
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4. The antenna of claim 3 wherein the depth of said structure is at least equal to several average wavelengths.
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5. The antenna of claim 4 wherein the cross-sectional area of said structure is at least as large as the cross-sectional area of said slotted waveguide elements.
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6. The antenna of claim 2 wherein said photonic band gap structure has metal elements configured as thumbtacks and defect channels in the photonic band gap crystal lattice.
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7. The antenna of claim 6 wherein said thumbtack metal elements are overlapping.
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8. The antenna of claim 7 wherein said defect channels are equal in number to said waveguide slots and have geometrically equivalent cross-sectional areas to and are aligned with said slots.
Specification