2015
DOI: 10.1109/tmtt.2015.2428243
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Millimeter-Wave Near-Field Probe Designed for High-Resolution Skin Cancer Diagnosis

Abstract: This paper presents a detailed technical characterization of a micromachined millimeter-wave near-field probe developed for skin cancer diagnosis. The broadband probe is optimized for frequencies from 90 to 104 GHz and consists of a dielectric-rod waveguide, which is metallized and tapered towards the tip to achieve high resolution by concentrating the electric field in a small sample area. Several probes with different tip sizes were fabricated from high-resistivity silicon by micromachining and were successf… Show more

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Cited by 54 publications
(21 citation statements)
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“…8(c)) is the concentration of the electric field to the high-permittivity silicon slab. This is similar to the field concentration seen in dielectric rod waveguides [14], where the field concentration is more significant for larger permittivity values. Since Design E has a permittivity which decreases in three steps, over the relatively long matching regions, we note that the field widens around the lens as it propagates through the regions of lower permittivity.…”
Section: Wideband Analysis Of Planar Lenses With Three Matching Regionssupporting
confidence: 80%
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“…8(c)) is the concentration of the electric field to the high-permittivity silicon slab. This is similar to the field concentration seen in dielectric rod waveguides [14], where the field concentration is more significant for larger permittivity values. Since Design E has a permittivity which decreases in three steps, over the relatively long matching regions, we note that the field widens around the lens as it propagates through the regions of lower permittivity.…”
Section: Wideband Analysis Of Planar Lenses With Three Matching Regionssupporting
confidence: 80%
“…This type of artificial dielectrics have since then been used in antenna design (e.g., [2,7]), for test samples with a known permittivity [14], and in the design of W-band phase shifters [23]. We here use this technique in order to achieve tailor-made permittivities for the matching regions in the proposed lens antennas by etching periodic square holes of width h and period p in a silicon wafer according to Fig.…”
Section: Tailor-made Effective Permittivity Regions In a Silicon Wafermentioning
confidence: 99%
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“…Therefore, to achieve an accurate measurement, a high-quality mm-wave probe with submillimeter sensing depth and high lateral resolution is desired. In 2015, Topfer et al invented a broadband probe operating from 90 to 104 GHz[67], which consists of a dielectric-rod waveguide that is metallized and tapered towards the tip to achieve high resolution by concentrating the electric field in a small sample area. The sensing depth was from 0.3 to 0.4 mm, which is adapted for detecting early-stage skin tumors before metastasizing.…”
mentioning
confidence: 99%