Northwestern researchers develop dual mode infra-red imager

Jan. 18, 2013
Researchers at the Northwestern University's (Evanston, IL, USA) Center for Quantum Devices have now found a way to integrate active and passive infra-red imaging capability into a single chip.

Existing infra-red cameras usually fall into one of two types: active cameras, which use an infra-red source to illuminate a scene in the near or short-wavelength infra-red and passive cameras, which detect the thermal radiation given off by a warm object, typically in the mid- or long-wavelength infra-red without the need for any illumination.

Integrating both modes of imaging into a single camera would open new possibilities but doing so has proven challenging. Until now, dual-mode active and passive infra-red cameras needed either two different infrared detectors or controllable filters to accommodate the different wavelengths, and then required additional signal processing to reconstruct a single image from the two modes.

However, researchers at the Northwestern University's (Evanston, IL, USA) Center for Quantum Devices have now found a way to integrate active and passive infra-red imaging capability into a single chip. This opens the way to lighter and simpler dual-mode active/passive cameras with lower power dissipation.

The researchers created the dual-band detector capable of active and passive use by engineering the properties of indium arsenide/gallium antimonide (InAs/GaSb) type-II superlattices. The detector has a cutoff wavelength of either 2.2µm in the active mode or 4.5µm in the passive mode. It can be switched from passive to active mode by a very small change in bias.

The image above shows a researcher holding a heater and a narrow-band filter centered at 3.6µm. The heater can be seen when imaged with the band-pass detectors sensitive up to 4.5µm (left), but not in the ones with shorter detection wavelengths up to 2.2µm (right).

A paper about the findings, "Active and Passive Infrared Imager Based on Short-Wave and Mid-Wave Type-II Superlattice Dual-Band Detectors," was published in the January 1 issue of the journal Optic Letters.

Further details of the work, which was led by Manijeh Razeghi, Walter P. Murphy Professor of Electrical Engineering and Computer Science in Northwestern's McCormick School of Engineering and Applied Science, can be found here.

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