Lee Mirth scite author profile

Rapidly improving technology is transitioning current laboratory images into reality with fielded systems expected within two years. W-band radiometers have been shown to be effective in detecting metallic and non-metallic weapons concealed under heavy garments in both outdoor and indoor situations. Systems that are in development will provide real-time display and weapon detection in controlled situations. The incorporation of technology improvements that have already been demonstrated will double the sensitivity and provide affordable systems with mpid scanning for general use.Lockheed Martin and Intelligent Machine Technology are working to build a demonstration system for the Department of Justice and the Air Force Research Laboratory that can be extended to take advantage of rapidly moving semiconductor improvements. Our current radiometer modules use a PIN switch for the Dicke calibration function followed by multiple low noise amplifier stages, a Schottky detector and a video amplifier. Sensitivity of such modules is primarily a function of the insertion loss and noise figure of the front end MMIC circuits. Processing improvements at Lockheed Martin and refined chip design will result in a 3 dB improvement in the effective noise figure within the next year. Imaging is also greatly improved by achieving greater effective bandwidth and higher operating frequency. Whereas present modules operate from 80 to 90 G Hz, MM1C improvements will provide for operation up to 140G Hz with a doubling of the bandwidth in the near term. Receiver operation up to 540G Hz has also been demonstrated at other labs. SYSTEM DESIGNLockheed Martin is developing a system that combines a linear array with rapid scanning to achieve real time detection of concealed weapons. Two 1 X 17 arrays of radiometer modules are configured with horn antennas to produce an image consisting of 34 X 44 pixels. A special Cassigrain system is used to collect the W-band energy over a 12 by 9 degree field of view. This arrangement is designed to operate at distances of 10 to 40 feet. An JR camera is provided to locate suspects in dark conditions and to provide information for background elimination so that only detection candidates associated with a suspect's silhouette are considered.

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Lee Mirth

A high-power Ka-band quasi-optical amplifier array

Active-amplifier-array diagnostics using high-resolution electrooptic field mapping

A 25 watt and 50 watt Ka-band quasi-optical amplifier

Passive millimeter-wave focal plane array

<title>Passive millimeter-wave camera images: current and future</title>

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