2020
DOI: 10.1109/access.2020.3032617
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High Resolution and Polarization Independent Microwave Near-Field Imaging Using Planar Resonator Probes

Abstract: Various near-field microwave imaging probes were developed previously for nondestructive testing of material structures. Sensitivity and resolution are key parameters for quantifying the efficacy of a given imaging probe. For polarized targets like cracks, the sensitivity of conventional aperture probes depends on the relative orientation between the probe's electric-field vector and the target. In practice, target orientation is typically unknown. Furthermore, the imaging resolution of conventional aperture p… Show more

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Cited by 22 publications
(18 citation statements)
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“…At zero liftoff, the waveguide is in contact with metal surface (short circuit) and the presence of the crack, once passed through the aperture area, is sensed through the change in the phase of the reflection coefficient [33], [47]. Assuming no losses, the [77] magnitude of the reflection coefficient remains unity in this case [47]. However, at nonzero lift-off and/or when losses are considered, the magnitude and phase both change due to the presence of the crack [47].…”
Section: B Near-field Methodsmentioning
confidence: 99%
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“…At zero liftoff, the waveguide is in contact with metal surface (short circuit) and the presence of the crack, once passed through the aperture area, is sensed through the change in the phase of the reflection coefficient [33], [47]. Assuming no losses, the [77] magnitude of the reflection coefficient remains unity in this case [47]. However, at nonzero lift-off and/or when losses are considered, the magnitude and phase both change due to the presence of the crack [47].…”
Section: B Near-field Methodsmentioning
confidence: 99%
“…The scanning/imaging lateral resolution depends on the size of the footprint where the probe concentrates the fields (typically in the order of the diffraction limit for the near-field aperture probes). With open-ended waveguide probes, the frequency (i.e., wavelength) dictates the waveguide aperture dimensions [101], which in turn dictates the lateral imaging resolution [53], [58], [77]. It is established that the near-field lateral resolution for aperture probes is half the largest aperture dimension [53], [65].…”
Section: B Near-field Methodsmentioning
confidence: 99%
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“…Although a resolution of 2 mm was reported in [36] at a relatively lower frequency than the proposed probe, the results were obtained using an array of split ring resonators operating at small standoff distance of 0.6 mm. It is noted here that only a few previously developed probes were designed and optimized for crack detection while no imaging results were presented (except in [24]) to elucidate the sensitivity/practicability of the probe towards any other defect types like corrosion beneath a layer of paint.…”
Section: B Corrosion Mappingmentioning
confidence: 99%