Patterns in Nature Research Paper Infrared Tech

Words: 1747
Pages: 7

Infrared Technology Infrared (IR) light cannot be detected by the human eye. It has an energy factor that is two or three less than visible light and so the retina cannot be triggered to see it. So, when applied properly, infrared light can be used to help the human eye see things that were not fathomable beforehand. Infrared light doesn’t give off much energy and therefore is not very hot. When objects aren’t hot enough to give off visible light, it gives most of its energy in the Infrared Spectrum and is used in science, art and more. Chances are that people use something that is involved with Infrared technology every day, but they do not even realize it! Infrared technology is used in simple household commodities like remote controls
It is also being used to preserve and restore artistic works because it can pick up the “invisible details” of images painted under paintings (Oppenheimer). Infrared light can help people uncover the steps to a painting and understand the transformation of a painting over its lifetime.
Infrared technology is used in helping promote body health as well. These types of rays are used to enhance muscle relaxation, increase circulation to certain parts of the body and to quicken the inflammatory process of injuries. Infrared photography is used to detect tissue growth and Infrared radiation is used to warm damaged muscles and to speed up healing (Infrared Rays). This type of technology can help with chemotherapy patients or patients that have diabetes. Low-level infrared therapy is a type of low-energy laser that uses light in the infrared spectrum (Infrared Therapy). Another new innovative use for infrared technology is for blasting cancer cells! One of the biggest challenges with treating cancer is killing cancer cells without harming healthy cells. Texas-based NanoSpectra Biosciences’ AuroLase Therapy is its lead indication is for lung cancer. Nanoparticles are injected into the bloodstream with a mission to find lung cancer cells. Once they latch onto them, the cancer cells absorb the nanoparticles. An infrared light is projected onto the relevant area, the nanoparticles absorb it and convert the light