A multi-level antenna array includes a plurality of patch antennas. Each layer of a plurality of layers is separated from other layers by a distance and support a portion of the plurality of patch antennas. Each of a plurality of connectors is associated with one of the plurality of layers for supplying a signal for transmission by the associated layer. A feed network on each of the plurality of layers provides a connection between a connector of the plurality of connectors associated with the layer and the portion of the plurality of patch antennas located on the layer. Each layer of the plurality of layers transmits the signal having a different orthogonal function applied thereto and multiplexes each of the signals having the different orthogonal function applied thereto onto a single transmission beam.

A multi-level antenna array includes a plurality of patch antennas. Each layer of a plurality of layers is separated from other layers by a distance and support a portion of the plurality of patch antennas. Each of a plurality of connectors is associated with one of the plurality of layers for supplying a signal for transmission by the associated layer. A feed network on each of the plurality of layers provides a connection between a connector of the plurality of connectors associated with the layer and the portion of the plurality of patch antennas located on the layer. Each layer of the plurality of layers transmits the signal having a different orthogonal function applied thereto and multiplexes each of the signals having the different orthogonal function applied thereto onto a single transmission beam.

A terahertz device includes: a support substrate; a terahertz element that is mounted to the support substrate and that emits an electromagnetic wave in a terahertz band; and a reflection body that is disposed on the opposite side to an element rear surface with respect to an element main surface in a z direction and at an interval in the z direction from the element main surface and that has a reflection surface for reflecting, in a direction crossing the z direction, an electromagnetic wave emitted in the z direction by the terahertz element.

A terahertz device includes: a support substrate; a terahertz element that is mounted to the support substrate and that emits an electromagnetic wave in a terahertz band; and a reflection body that is disposed on the opposite side to an element rear surface with respect to an element main surface in a z direction and at an interval in the z direction from the element main surface and that has a reflection surface for reflecting, in a direction crossing the z direction, an electromagnetic wave emitted in the z direction by the terahertz element.

A phased array line feed for a reflector antenna, including a plurality of substantially parallel metallic rods and a phase/power switching matrix electrically connected to the metallic rods. The phase/power switching matrix may steer a beam of the reflector antenna by adjusting the phase and/or power difference between the metallic rods. The phased array line feed may also include a plurality of substantially parallel metallic disks. The metallic rods may extend through the metallic disks substantially perpendicular to the metallic discs. The metallic discs may be equally spaced and the diameter of the metallic disks may decrease along the length of the metallic rods. Alternatively, the diameters of the metallic discs may be equal and the distances between the metallic discs may decrease along the length of the metallic rods.

A phased array line feed for a reflector antenna, including a plurality of substantially parallel metallic rods and a phase/power switching matrix electrically connected to the metallic rods. The phase/power switching matrix may steer a beam of the reflector antenna by adjusting the phase and/or power difference between the metallic rods. The phased array line feed may also include a plurality of substantially parallel metallic disks. The metallic rods may extend through the metallic disks substantially perpendicular to the metallic discs. The metallic discs may be equally spaced and the diameter of the metallic disks may decrease along the length of the metallic rods. Alternatively, the diameters of the metallic discs may be equal and the distances between the metallic discs may decrease along the length of the metallic rods.

A multi-level antenna array includes a plurality of patch antennas. Each layer of a plurality of layers is separated from other layers by a distance and support a portion of the plurality of patch antennas. Each of a plurality of connectors is associated with one of the plurality of layers for supplying a signal for transmission by the associated layer. A feed network on each of the plurality of layers provides a connection between a connector of the plurality of connectors associated with the layer and the portion of the plurality of patch antennas located on the layer. Each layer of the plurality of layers transmits the signal having a different orthogonal function applied thereto and multiplexes each of the signals having the different orthogonal function applied thereto onto a single transmission beam.

A spherical reflector antenna, including a sphere with a reflective surface opposite a transparent surface, a feed system that receives electromagnetic waves that (pass through the transparent surface at a beam angle) and are reflected off the reflective surface at a beam angle and outputs electromagnetic waves that are reflected off the reflective surface (and pass through the transparent surface at a beam angle), and beam steering electronics that identify a position of the spherical reflector antenna, identify an orientation of the sphere, and adjust the beam angle of the feed system based on angle from the position of spherical reflector antenna to the target relative to the orientation of the sphere.

A spherical reflector antenna, including a sphere with a reflective surface opposite a transparent surface, a feed system that receives electromagnetic waves that (pass through the transparent surface at a beam angle) and are reflected off the reflective surface at a beam angle and outputs electromagnetic waves that are reflected off the reflective surface (and pass through the transparent surface at a beam angle), and beam steering electronics that identify a position of the spherical reflector antenna, identify an orientation of the sphere, and adjust the beam angle of the feed system based on angle from the position of spherical reflector antenna to the target relative to the orientation of the sphere.

A multi-level antenna array includes a plurality of patch antennas. Each layer of a plurality of layers is separated from other layers by a distance and support a portion of the plurality of patch antennas. Each of a plurality of connectors is associated with one of the plurality of layers for supplying a signal for transmission by the associated layer. A feed network on each of the plurality of layers provides a connection between a connector of the plurality of connectors associated with the layer and the portion of the plurality of patch antennas located on the layer. Each layer of the plurality of layers transmits the signal having a different orthogonal function applied thereto and multiplexes each of the signals having the different orthogonal function applied thereto onto a single transmission beam.