Abstract
We demonstrate the penetration of thick metallic and ferromagnetic barriers for imaging of conductive targets underneath. Our system is based on an 85Rb radio-frequency atomic magnetometer operating in electromagnetic induction imaging modality in an unshielded environment. Detrimental effects, including unpredictable magnetic signatures from ferromagnetic screens and variations in the magnetic background, are automatically compensated by active compensation coils controlled by servo loops. We exploit the tunability and low-frequency sensitivity of the atomic magnetometer to directly image multiple conductive targets concealed by a 2.5 mm ferromagnetic steel shield and/or a 2.0 mm aluminium shield, in a single scan. The performance of the atomic magnetometer allows imaging without any prior knowledge of the barriers or the targets, and without the need of background subtraction. A dedicated edge detection algorithm allows automatic estimation of the targets' size within 3.3 mm and of their position within 2.4 mm. Our results prove the feasibility of a compact, sensitive and automated sensing platform for imaging of concealed objects in a range of applications, from security screening to search and rescue.
Highlights
The detection and identification of hidden illicit or dangerous items in cargo or vehicles is paramount for ensuring security [1]
The system is based on an 85Rb radio-frequency atomic magnetometer (RF-AM)
We have shown that the DC magnetic field contribution of ferromagnetic shields can be eliminated by an actively controlled compensation coil system
Summary
The detection and identification of hidden illicit or dangerous items in cargo or vehicles is paramount for ensuring security [1]. In this context, the ability to image through ferromagnetic and metallic shields is a crucial feature of any device used for security screening applications. Other active approaches include neutron-based systems, such as pulsed fast neutron analysis [7, 8]. These approaches risk delivering inherent doses of radiation to both operators and potential stowaways. Muon tomography is being explored as a potential alternative passive technology [9]
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