Magnetic anomaly detector
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A magnetic anomaly detector (MAD) is an instrument used to detect minute variations in the Earth's magnetic field.<ref>Template:Cite book</ref> The term typically refers to magnetometers used by military forces to detect submarines (a mass of ferromagnetic material creates a detectable disturbance in the magnetic field). Military MAD equipment is a descendant of geomagnetic survey or aeromagnetic survey instruments used to search for minerals by detecting their disturbance of the normal earth-field.
HistoryEdit
Geoexploration by measuring and studying variations in the Earth's magnetic field has been conducted by scientists since 1843. The first uses of magnetometers were for the location of ore deposits. Thalen's "The Examination of Iron Ore Deposits by Magnetic Measurements", published in 1879, was the first scientific treatise describing this practical use.<ref>Note Outline: Geophysical Surveying Using Magnetics Methods, January 16, 2004, University of Calgary</ref>
Magnetic anomaly detectors employed to detect submarines during World War II harnessed the fluxgate magnetometer, an inexpensive and easy to use technology developed in the 1930s by Victor Vacquier of Gulf Oil for finding ore deposits.<ref>Dunmore, Spencer, Lost Subs, Chartwell Books, Edison NJ, 2007, p.120 Template:ISBN</ref><ref name="lat">Template:Citation.</ref> MAD gear was used by both Japanese and U.S. anti-submarine forces, either towed by ship or mounted in aircraft to detect shallow submerged enemy submarines. The Japanese called the technology jikitanchiki (磁気探知機, "Magnetic Detector"). After the war, the U.S. Navy continued to develop MAD gear as a parallel development with sonar detection technologies.
Satellite, near-surface and oceanic data from detectors was used to create the World Digital Magnetic Anomaly Map published by the Commission for the Geological Map of the World (CGMW) in July 2007.
OperationEdit
The magnetic anomaly from a submarine is usually very small. One source estimates that it is only about 0.2 nT at a distance of 600 m.<ref>Template:Cite journal</ref> Another source estimates that a 100Template:Nnbspm long and 10 m wide submarine would produce a magnetic flux of 13.33 nT at 500Template:Nnbspm, 1.65 nT at 1Template:Nnbspkm and 0.01 nT at 5Template:Nnbspkm.<ref>Template:Cite conference</ref> To reduce interference from electrical equipment or metal in the fuselage of the aircraft, the MAD sensor is placed at the end of a boom or on a towed aerodynamic device.<ref name=":0">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Even so, the submarine must be very near the aircraft's position and close to the sea surface for detection of the anomaly, because magnetic fields decrease as the inverse cube of distance, one source gives a detection slant range of 500Template:Nnbspm.<ref name=":0" /> The size of the submarine, its hull composition and orientation, as well as the water depth and complexity of the natural magnetic field, determine the detection range. MAD devices are usually mounted on aircraft.<ref name=":0" /> For example, one study showed that a horizontal detection range of 450–800Template:Nnbspm, when aircraft was 200Template:Nnbspm above a submarine, decreased to less than 150Template:Nnbspm when the aircraft was 400Template:Nnbspm above the submarine.<ref name=chengjing>Template:Cite journal</ref>
If the sea floor has sunken ships, then submarines may operate near them to confuse magnetic anomaly detectors.<ref>Template:Cite book</ref>
MAD has certain advantages over other detection methods. It is a passive detection method. Unlike sonar it is not impacted by meteorological conditions; indeed above sea state 5, MAD may be the only reliable method for submarine detection.<ref name=chengjing/>
Other usesEdit
For aeromagnetic survey applications the magnetic sensor can be mounted on an aircraft (typically on a long probe in front of or behind the aircraft to reduce the magnetic effects of the aircraft itself) or in a towed device. A chart is produced that geologists and geophysicists can study to determine the distribution and concentration of magnetic minerals which are related to geology and mineral deposits.
See alsoEdit
- Submarine detection system
- Autolycus, exhaust plume detector