Abstract: The present invention is a time division multiplexed beam combination for laser signal generation. In one aspect, the time division multiplexed beam combination employs a mechanical implementation. In a second aspect, the time division multiplexed beam combination employ a polarization interlacing.

Abstract: The present invention is a time division multiplexed beam combination for laser signal generation. In one aspect, the time division multiplexed beam combination employs a mechanical implementation. In a second aspect, the time division multiplexed beam combination employ a polarization interlacing.

Abstract: A method includes time-division multiplexing a plurality of pulsed laser signals. An apparatus includes a plurality of lasers capable of emitting pulsed laser signals; a scanner optically aligned with the laser signals; and a controller. The controller is capable of pulsing the lasers in a time-division multiplexed temporal pattern and driving the scanner to combine the time-multiplexed pulsed laser signals to generate a combined laser signal.

Abstract: A gimballed optical system within a seeker head includes a relatively low power laser coupled to a relatively higher power laser by way of a flexible fiber optic cable to reduce the mass that must be oscillated in a scan.

Abstract: A gimballed optical system within a seeker head includes a relatively low power laser coupled to a relatively higher power laser by way of a flexible fiber optic cable to reduce the mass that must be oscillated in a scan.

Abstract: An apertured mirror permits an outgoing, transmitted laser beam to pass and reflects a return, reflected beam onto a detector array.

Abstract: The present invention relates to an optical reimaging system which incorporates multiple sets of lenses to transmit an image from one plane to another in the form of image segments which are detected by one or more discrete detector arrays. Signals generated by the detector array or arrays can be used to recombine the image segments to reproduce the image transmitted from the first focal plane. These image segments can be contiguous or separated, inverted or not, depending on the lens arrangment and magnification used. In infrared applications, all or a portion of the reimaging system may be cooled to reduce contaminating warm radiation.

Abstract: A method and apparatus for rapidly erasing and rebiasing a thermoptic thin film. A thermal insulating material (16) is disposed adjacent a thermoptic thin film (10). A layer of resistive material (14) is disposed between the insulating material and the thermoptic thin film and is connected to a current generator (18) which supplies a current to the layer dissipating heat into the thermoptic thin film and insulating layer. A thermal body (22), having high thermal conductivity and interfacing with the insulating layer the opposite boundary from the thermoptic thin film, contains a conduit through which a refrigerated liquid is flowed to establish a thermal gradient from the thermoptic thin film to the fluid. Sufficient current is supplied to the resistive layer to maintain the temperature of the thermoptic thin film at the bias temperature.