L. Elson scite author profile

L. Elson

4Publications

2Citation Statements Received

84Citation Statements Given

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132

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University of Nottingham

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Unshielded portable optically pumped magnetometer for the remote detection of conductive objects using eddy current measurements

Rushton

Pyragius

Meraki

et al. 2022

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Electrically conductive objects can be detected using the principle of electromagnetic induction, where a primary oscillating magnetic field induces eddy currents in the object, which in turn produce a secondary magnetic field that can be measured with a magnetometer. We have developed a portable radio-frequency optically pumped magnetometer (RF OPM) working in unshielded conditions with sub-pT/[Formula: see text] magnetic field sensitivity when used for the detection of small oscillating magnetic fields, setting a new benchmark for the sensitivity of a portable RF OPM in unshielded conditions. Using this OPM, we have detected the induced magnetic field from aluminum disks with diameters as small as 1.5 cm and with the disks being [Formula: see text] cm from both the excitation coil and the magnetometer. When used for eddy current detection, our magnetometer achieves a sensitivity of a 2–6 pT/[Formula: see text]. We have also detected a moving aluminum disk using our RF OPM and analyzed the magnetometer signals, which depend on the position of the disk, illustrating the potential of high sensitivity RF OPMs for remote sensing applications.

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Detection and Characterisation of Conductive Objects Using Electromagnetic Induction and a Fluxgate Magnetometer

Elson

Meraki

Rushton

et al. 2022

Sensors

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Eddy currents induced in electrically conductive objects can be used to locate metallic objects as well as to assess the properties of materials non-destructively without physical contact. This technique is useful for material identification, such as measuring conductivity and for discriminating whether a sample is magnetic or non-magnetic. In this study, we carried out experiments and numerical simulations for the evaluation of conductive objects. We investigated the frequency dependence of the secondary magnetic field generated by induced eddy currents when a conductive object is placed in a primary oscillating magnetic field. According to electromagnetic theory, conductive objects have different responses at different frequencies. Using a table-top setup consisting of a fluxgate magnetometer and a primary coil generating a magnetic field with frequency up to 1 kHz, we were able to detect aluminium and steel cylinders using the principle of electromagnetic induction. The experimental results were compared to numerical simulations, with good overall agreement. This technique enables the identification and characterisation of objects using their electrical conductivity and magnetic permeability.

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Alignment-Based Optically Pumped Magnetometer Using a Buffer-Gas Cell

et al. 2023

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Detection and characterisation of conductive objects using electromagnetic induction and a fluxgate magnetometer

Elson¹,

Meraki²,

Rushton³

et al. 2022

Preprint

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Eddy currents induced in electrically conductive objects can be used to locate metallic objects as well as to assess the properties of materials non-destructively without physical contact. This technique is useful for material identification, such as measuring conductivity and for discriminating whether a sample is magnetic or non-magnetic. In this study, we carried out experiments and numerical simulations for the evaluation of conductive objects. We investigated the frequency dependence of the secondary magnetic field generated by induced eddy currents when a conductive object is placed in a primary oscillating magnetic field. According to the electromagnetic theory, conductive objects have different responses at different frequencies. Using a table-top setup consisting of a fluxgate magnetometer and a primary coil generating a magnetic field with frequency up to 1 kHz, we are able to detect aluminium and steel cylinders using the principle of electromagnetic induction. The experimental results are compared with numerical simulations and we find overall a good agreement. This technique enables identification and characterisation of objects using their electrical conductivity and magnetic permeability.

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L. Elson

Unshielded portable optically pumped magnetometer for the remote detection of conductive objects using eddy current measurements

Detection and Characterisation of Conductive Objects Using Electromagnetic Induction and a Fluxgate Magnetometer

Alignment-Based Optically Pumped Magnetometer Using a Buffer-Gas Cell

Detection and characterisation of conductive objects using electromagnetic induction and a fluxgate magnetometer

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