Definition of Thermography
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How It Works
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An infrared sensor picks up light from the infrared range of the electromagnetic spectrum. The infrared range is in a slightly lower frequency than the visible light spectrum that the human eye can see. As the temperature of an object increases, the amount of infrared radiation from its surface also increases. The infrared sensors used in thermography "see" this infrared radiation and create an image. Warm objects (or warmer parts of an object) stand out against cool backgrounds and vice versa. Thermographic images can be viewed in real-time, as with night-vision goggles, or they may be recorded on film for later analysis, as with the computerized thermal imaging used in the medical industry.
Night-Vision Goggles
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One of the more well-known uses of thermography is night-vision goggles, which allow a user to see objects when it is completely dark. Humans and animals are warmer than the inanimate objects that surround them, so it is possible to see and track them using glasses with infrared sensors. Night-vision goggles are used by the military for surveillance at night or in closed places with no light, giving soldiers an advantage because it's possible to see another person without being seen by him or her. Night-vision goggles can also be used by animal researchers to gain information about an animal's nocturnal activities.
Swine Flu Screening
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In 2009 amid swine flu fears, many airports installed thermal imaging cameras to screen incoming and outgoing passengers for infectious diseases. Because thermography is capable of detecting elevated body temperatures, passengers with fevers can be spotted without taking each person's temperature with a thermometer, allowing airport officials to quarantine passengers suspected of being ill.
Computer Thermal Imaging
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Another medical application of thermography, called computerized thermal imagining (CTI), is currently (as of 2009) in clinical trials as a non-contact, less painful alternative to mammography for early breast cancer detection. Since tumors have a slightly higher temperature than normal tissue, CTI uses an infrared camera to take thermal photographs of the breast, which are digitally reconstructed to show if cancer is present.
Industrial Uses
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Thermography has a wide range of industrial uses. For example, it can be used to troubleshoot electric connections and find hot spots or short circuits, it can detect heat and moisture loss in buildings and HVAC systems, it can be used to spot leaks in machine insulation systems and it can be used to monitor possible overheating in engines or other machine parts. Thermography is safe to use because surfaces can be tested and monitored without a person coming into contact with dangerous chemicals or hot machines and materials.
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