By measuring “inaudible” sounds, events such as illegal nuclear tests can be detected. This “infrasound” can also help us understand more about the upper atmosphere. Sound with a frequency below 20 Hz is inaudible to human ears. Scientists' ears, however, are very interested in this “infrasound”. Sources of infrasound are often large and powerful, like meteors, explosions, ocean waves, storms, volcanoes, avalanches, earthquakes and nuclear tests.
Infrasound is measured with arrays (series) of highly sensitive microbarometers. TU Delft PhD student Läslo Evers, who works at the Royal Netherlands Meteorological Institute (KNMI), has improved the entire process of measuring, analyzing and interpreting infrasound. The big challenge is to separate sounds from one other and to identify their sources.
Large explosions in the vicinity are easy to recognize, for example the explosion of a fuel depot near London in 2005. At home, Evers saw a huge peak above the noise on his computer screen. He knew immediately that something big had happened in England. But the main purpose of his work is the detection of above-ground nuclear tests. KNMI helps to enforce the Comprehensive Nuclear Test Ban Treaty of 1996, which prohibits signatories from testing nuclear devices. Dozens of microbarometers have been set up on five sites in the Netherlands.
To further refine the analyses, Evers studies the interaction between the earth's atmosphere and infrasound. The temperatures and wind speeds at an altitude of 50-100 km can cause distortion. This analysis process can also be turned around. Evers wants to use information gleaned from infrasound to map the upper atmosphere more accurately. He is planning to conduct research in this field together with the Dept. of Acoustic Remote Sensing of the Faculty of Aerospace Engineering at TU Delft.
Read more at Delft Univ.,
http://www.tudelft.nl/live/pagina.jsp?id=cb990d7f-bbda-4121-86cc-252010d3e633&lang=en SOURCE:
Delft University of Technology
