RU2013138591A - MULTIFUNCTIONAL OPTICAL CORRELATOR FOR PROCESSING INFORMATION FLOW - Google Patents

Abstract

1. A multifunctional optical correlator for processing an information stream, comprising: a unit for generating an optical information stream and a unit for processing an optical information stream; a laser is installed at the input of the block, generating a sequence of extremely short femtosecond pulses, both blocks contain an input port receiving a pulsed light beam, an optical communication device for creating a plane pulsed light wave, which is optically coupled to a spatial modulator with controlled transmitting elements placed on one plane, and located between the input port and the transmitted light beam controlled spatial modulator, the focusing device and the output t, wherein the blocks are optically coupled, for example, by a light guide, characterized in that the block for processing the optical information stream contains a splitter in the amplitude of the output beam wave located between the focusing device and the output port, and a spatially sensitive photodetector located in the image plane of the spatial controlled modulator created by the focusing device, the controlled spatial modulator of each block is installed at an angle α to the beam axis of the optical device with ide for creating a plane pulsed light wave and at an angle β to the beam axis of the focusing device, which are determined from the relation: sin (α) -sin (β) = 1, behind the output port there is a high-speed photodetector, controlled transmitting elements of a flat optical spatial modulator, device input signal into spatial mo

Claims (4)

1. A multifunctional optical correlator for processing an information stream, comprising: a unit for generating an optical information stream and a unit for processing an optical information stream; a laser is installed at the input of the block, generating a sequence of extremely short femtosecond pulses, both blocks contain an input port receiving a pulsed light beam, an optical communication device for creating a plane pulsed light wave, which is optically coupled to a spatial modulator with controlled transmitting elements placed on one plane, and located between the input port and the transmitted light beam controlled spatial modulator, the focusing device and the output t, wherein the blocks are optically coupled, for example, by a light guide, characterized in that the block for processing the optical information stream contains a splitter in the amplitude of the output beam wave located between the focusing device and the output port, and a spatially sensitive photodetector located in the image plane of the spatial controlled modulator created by the focusing device, the controlled spatial modulator of each block is installed at an angle α to the beam axis of the optical device with ide for creating a plane pulsed light wave and at an angle β to the beam axis of the focusing device, which are determined from the relation: sin (α) -sin (β) = 1, behind the output port there is a high-speed photodetector, controlled transmitting elements of a flat optical spatial modulator, device the signal input to the spatial modulator is controlled by the signal source of the spatial modulator, and the current pulse generated in the high-speed photodetector is amplified by an amplifying electronic system and apravlyaetsya threshold to the electronic device which outputs a signal generator for the auxiliary code signal identification pulse, the threshold device comprising operation indicator, e.g., the signal "alarm", and trigger the control computer, wherein the transmittance controlled spatial modulator device defined amplification and signal processing. 2. The device according to claim 1, characterized in that the controlled transmitting elements of a flat optical spatial modulator are equipped with microprisms, each of which has the same refraction angles. 3. The device according to claim 2, characterized in that the controlled transmitting elements of a flat optical spatial modulator have mirror layers. 4. The device according to claim 3, characterized in that the controlled transmitting elements of a flat optical spatial modulator with a mirror layer are made inclined with the same angles.