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Nanosensor Promising for Space Research

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DELFT, Netherlands, Jan. 19, 2007 -- By detecting the terahertz frequencies contained in cosmic radiation, a tiny but supersensitive sensor may help solve the mysteries of outer space, its creator said.

Cosmic radiation offers astronomers important new information about the birth of star systems and planets. Merlijn Hajenius developed  nanosensors that detect this radiation for Delft University of Technology's Kavli Institute of Nanoscience, in close cooperation with SRON, the Netherlands Institute for Space Research.DelftNanosensor.jpg
Scanning electron microscope image showing a superconducting hot electron bolometer for detecting terahertz radiation. The superconducting niobiumnitride nanobridge is shown at the center which connects to the on-chip (partly shown) gold spiral antenna via additional contact pads. The strip covering the bridge is left over from processing.
The detector, called a hot electron bolometer, is based on the well-known phenomenon that electrical resistance increases when something is heated up. The use of a superconductor renders the detector extremely sensitive and allows it to be used for radiation that until now could not be so well detected.

The detector works for terahertz frequencies, which astronomers and atmospheric scientists are extremely interested in. The detector's core is comprised of a small piece of superconducting niobiumnitride. Clean superconducting contacts that are kept at a constant temperature of -268 °C (five degrees above absolute zero) are attached to both ends of the material.

A miniscule gold antenna catches the terahertz-radiation and sends it via the contacts to the small piece of niobiumnitride, which functions as an extremely sensitive thermometer.

"By reading this thermometer, we can very accurately measure the terahertz radiation. In Delft, we have set a world record with this detector in the frequency area above 1.5 terahertz," Hajenius said.

The results have convinced astronomers to use these detectors for the new observatory in Antarctica (High Elevation Antarctic TeraHertz Telescope, or HEAT), and a new space mission (ESPRIT) has also been proposed.

The "maiden flight" of Hajenius' detector is planned for next year, but it will not take place in a satellite used for studying cosmic clouds, but rather in a balloon that will study the Earth's atmosphere. The TELIS instrument, which SRON is currently working on, will be equipped with a Delft University of Technology detector and will measure the molecules in the atmosphere above Brazil that influence the formation of the hole in the ozone layer.

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Jan 2007
The technology of generating and harnessing light and other forms of radiant energy whose quantum unit is the photon. The science includes light emission, transmission, deflection, amplification and detection by optical components and instruments, lasers and other light sources, fiber optics, electro-optical instrumentation, related hardware and electronics, and sophisticated systems. The range of applications of photonics extends from energy generation to detection to communications and...
The emission and/or propagation of energy through space or through a medium in the form of either waves or corpuscular emission.
DelftDelft University of TechnologyEarthESPRITheathot electron bolometerMerlijn HajeniusMicroscopynanonanosensorNews & Featuresniobiumnitrideouter spacephotonicsradiationSensors & DetectorsSRONsuperconductingTELIS

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