Abstract: A fiber optic installation device is disclosed for easily and efficiently installing fiber into an existing conduit in order to provide telecommunication and other services. The installation device includes a housing having first and second entry points. A first tube is releasably coupled to the first entry point, and configured for receiving a fiber cable, and a second tube is releasably coupled to the second entry point, and configured for receiving and securing an existing conduit so that the fiber optic cable can be pushed through and installed into the conduit. The cable is driven through the device via a drive wheel that is coupled to a drive shaft being driven by a standard electric drill. To prevent slippage of the cable, a pincher wheel is adjusted up or down via a knob to ensure the fiber optic cable remains in contact with the drive wheel throughout the installation process.

Abstract: An auxiliary tank for a liquid is removably mounted on a rod extending from a support attached to selected threaded studs supporting a spare tire on a vehicle. A plurality of snaplock elements retain the tank locked with the support. A second tank for a liquid may be mounted on the rod adjacent the first tank. A further plurality of snaplock elements interlock the two tanks with one another. To prevent unauthorized removal of the tank(s), a conventional padlock is engaged with a passageway at the end of the rod. A variant support includes a flange for attachment to a bumper, running board, or the like, of a vehicle.

Abstract: A method comprises generating a laser signal; scanning the laser signal into a field of view; and processing the return signal.

Abstract: An auxiliary tank for a liquid is removably mounted on a rod extending from a support attached to selected threaded studs supporting a spare tire on a vehicle. A plurality of snaplock elements retain the tank locked with the support. A second tank for a liquid may be mounted on the rod adjacent the first tank. A further plurality of snaplock elements interlock the two tanks with one another. To prevent unauthorized removal of the tank(s), a conventional padlock is engaged with a passageway at the end of the rod. A variant support includes a flange for attachment to a bumper, running board, or the like, of a vehicle.

Abstract: A method comprises generating a laser signal; scanning the laser signal into a field of view; and processing the return signal.

Abstract: A laser apparatus includes a laser capable of generating a laser signal; structure for conditioning the laser signal; and structure for varying the beamwidth of the laser signal as it is scanned into the field of view.

Abstract: A method comprises generating a laser signal; scanning the laser signal into a field of view; and processing the return signal.

Abstract: Systems and methods are disclosed for emitting electromagnetic (EM) energy. A source emits EM energy that is incident on a first material. The first material transmits EM energy to a second material. The second material can have a first surface adjacent to the first material and a thickness and shape selected to stimulate surface plasmon polaritons on the first surface of the second material to resonate the EM energy transmitted from the first material such that the resonated EM energy has an EM wavelength in a narrow field of view with substantially no sidelobes.

Abstract: A laser apparatus includes a laser capable of generating a laser signal; means for conditioning the laser signal; and means for varying the beamwidth of the laser signal as it is scanned into the field of view.

Abstract: A folding control surface assembly includes a torsion shaft, a base, and a control surface hingedly attached to the base via the torsion shaft, such that the torsion shaft biases the control surface toward an unfolded configuration with respect to the base. A vehicle includes a body and at least one folding control surface assembly. The at least one folding control surface assembly includes a torsion shaft, a base attached to the body, and a control surface hingedly attached to the base via the torsion shaft, such that the torsion shaft biases the control surface toward an unfolded configuration with respect to the base.

Abstract: A receiver, such as a miniaturized microwave-photonic coherent receiver (MMPR) is disclosed. The receiver includes an antenna to output an electrical RF signal received on a section of the antenna, a laser to produce an optical signal, a photonic modulator to receive the optical signal and the electrical RF signal and produce an EO-RF signal and to receive the optical signal and an electrical LO signal and produce an EO-LO signal, a signal combiner to provide a combined EO-RF and EO-LO signal and a photodiode to receive the combined signal and produce an IF signal. A method of detecting an object using the MMPR includes receiving an electrical RF signal corresponding to the object, outputting the electrical RF signal to a photonic modulator, modulating the electrical RF signal onto an optical carrier, demodulating the electrical RF signal to produce an IF signal and processing the IF signal.

Abstract: An apparatus for detecting radiation includes an entry window configured to receive radiation from a target, the entry window having an outer surface and an inner surface, such that the outer surface is not parallel to the inner surface. The apparatus further includes a radiation transmission assembly configured to receive at least a portion of the radiation received by the entry window. The apparatus further includes a radiation sensor configured to receive at least a portion of the radiation from the radiation transmission assembly.

Abstract: A receiver, such as a miniaturized microwave-photonic coherent receiver (MMPR) is disclosed. The receiver includes an antenna to output an electrical RF signal received on a section of the antenna, a laser to produce an optical signal, a photonic modulator to receive the optical signal and the electrical RF signal and produce an EO-RF signal and to receive the optical signal and an electrical LO signal and produce an EO-LO signal, a signal combiner to provide a combined EO-RF and EO-LO signal and a photodiode to receive the combined signal and produce an IF signal. A method of detecting an object using the MMPR includes receiving an electrical RF signal corresponding to the object, outputting the electrical RF signal to a photonic modulator, modulating the electrical RF signal onto an optical carrier, demodulating the electrical RF signal to produce an IF signal and processing the IF signal.

Abstract: An optical waveguide includes a first end surface; a second end surface, such that the second end surface is smaller than the first end surface; and a body extending between the first end surface and the second end surface, the body defining a complexly-contoured outer surface. An optical waveguide includes a first end surface; a second end surface, such that the second end surface is smaller than the first end surface; and a body extending between the first end surface and the second end surface, the body comprising one of a gradient-index material and a step-index material.

Abstract: A kinetic energy penetrator includes a plurality of penetrator segments, a penetrator segment sleeve for storing the plurality of penetrator segments, and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack. A method includes storing a plurality of penetrator segments away from an axis of attack and moving the plurality of penetrator segments to locations substantially aligned along the axis of attack. A vehicle includes a body and a kinetic energy penetrator disposed in a forward portion of the vehicle. The kinetic energy penetrator includes a plurality of penetrator segments, a penetrator segment sleeve for storing the plurality of penetrator segments, and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack.

Abstract: An optical waveguide includes a first end surface; a second end surface, such that the second end surface is smaller than the first end surface; and a body extending between the first end surface and the second end surface, the body defining a complexly-contoured outer surface. An optical waveguide includes a first end surface; a second end surface, such that the second end surface is smaller than the first end surface; and a body extending between the first end surface and the second end surface, the body comprising one of a gradient-index material and a step-index material.

Abstract: A method and apparatus for finding a relative direction to, a radial speed of, and a distance to a target is described. A laser source illuminates the target and the Doppler shifted return beam is incident upon a window system at an angle and is transmitted therethrough. The magnitude of the transmitted Doppler shifted beam decreases due to Fresnel transmittance. Opposing photomixers then detect this transmitted Doppler shifted beam, thereby creating a pair of detection signals that are mixed with a local oscillator signal. The mixing process creates Doppler frequency signals that are subsequently processed to determine the radial speed of the target. Due to the Doppler frequency component of the signals, objects in the same direction, but moving at different radial speeds, can be discriminated, as the relative direction processing occurs after the Doppler processing.

Abstract: A kinetic energy penetrator includes a plurality of penetrator segments, a penetrator segment sleeve for storing the plurality of penetrator segments, and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack. A method includes storing a plurality of penetrator segments away from an axis of attack and moving the plurality of penetrator segments to locations substantially aligned along the axis of attack. A vehicle includes a body and a kinetic energy penetrator disposed in a forward portion of the vehicle. The kinetic energy penetrator includes a plurality of penetrator segments, a penetrator segment sleeve for storing the plurality of penetrator segments, and means for moving the plurality of penetrator segments from the penetrator segment sleeve to locations substantially aligned along an axis of attack.