Magnetic induction tomography
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Magnetic induction tomography is an imaging technique used to image electromagnetic properties of an object by using the eddy current effect. It is also called electromagnetic induction tomography, electromagnetic tomography (EMT), eddy current tomography, and eddy current testing.
[edit] Applications
The method is used in nondestructive testing and geophysics, and has potential applications in medicine. It is also used to generate 3D images of passive electromagnetic properties, which has applications in brain imaging, cryosurgery monitoring in medical imaging, and metal flow visualization in metalworking processes.
[edit] References
- Telford, W M, Geldart, L P, Sheri, R E, and Keys, D A (1976). Applied Geophysics. Cambridge University Press: Cambridge, England, Section 3.5.4.
- Griffiths H (2001). "Magnetic induction tomography". Meas. Sci. Technol. 12 (8): 1126–1131. doi:.
- Korjenevsky A, Cherepenin V, and Sapetsky S (2000). "Magnetic induction tomography: experimental realization". Physiol. Meas. 21 (1): 89–94. doi:.
- Scharfetter H, Lackner H K, Rosell J (2001). "Magnetic induction tomography: Hardware for multi-frequency measurements in biological tissues". Physiol Meas. 22: 131–146. doi:.
- Binns R, Lyons, A R A, Peyton, A J, and Pritchard, W D N (2001). "Imaging molten steel flow profiles". Meas. Sci. Technol. 12: 1132–1138. doi:.
- Soleimani, M, Lionheart, W R B (2006). "Absolute Conductivity Reconstruction in Magnetic Induction Tomography Using a Nonlinear Method". IEEE Trans Medical Imaging 25 (12): 1521–1530. doi:.
