Kenta Sogo scite author profile

The variability in measurements of complex permittivities of tumor tissues between multiple samples could be attributed to the volume fraction of cancer cells in the excised tumor tissue. By the use of a digital photomicrograph image and hematoxylin-eosin staining, it was found that the malignant tumor tissue was not fully occupied by the cancer cells, but the cells were distributed locally in the stroma cells depending on the growth of cancer. The results showed that the volume fraction of cancer cells in the tumor tissue had a correlation to the measured conductivity and dielectric constant in the frequency range from 1 GHz to 6 GHz. It introduces a method to understand and gauge variability in measurements between different tumors.

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A 17 GHz bandwidth 1.2 mW CMOS switching matrix for UWB breast cancer imaging

Azhari

Sugitani

Sogo

et al. 2014

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125 mW 102.4 GS/s Ultra-High-Speed Sampling Circuit for Complementary Metal–Oxide–Semiconductor Breast Cancer Detection System

Toya

Sogo

Sasaki

et al. 2013

Jpn. J. Appl. Phys.

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For application to an impulse-radio ultra-wideband (IR-UWB) portable breast cancer detection system, a 102.4 GS/s sampling circuit is developed. The high sampling rate is realized by an equivalent-time sampling technique and a low-power multi-clock generation circuit using a phase interpolator. The phase interpolator achieved a minimum phase resolution 9.8 ps. Using the sampling circuit, a tumor phantom buried by a breast phantom was detected.

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CMOS equivalent time sampling of Gaussian monocycle pulse for confocal imaging

Seo

Sogo

Toya

et al. 2014

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A ring-VCO-based sub-sampling PLL CMOS circuit with −119 dBc/Hz phase noise and 0.73 ps jitter

Sogo

Toya

Kikkawa

2012

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Kenta Sogo

Complex permittivities of breast tumor tissues obtained from cancer surgeries

A 17 GHz bandwidth 1.2 mW CMOS switching matrix for UWB breast cancer imaging

125 mW 102.4 GS/s Ultra-High-Speed Sampling Circuit for Complementary Metal–Oxide–Semiconductor Breast Cancer Detection System

CMOS equivalent time sampling of Gaussian monocycle pulse for confocal imaging

A ring-VCO-based sub-sampling PLL CMOS circuit with −119 dBc/Hz phase noise and 0.73 ps jitter

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Resources

About

Kenta Sogo

Complex permittivities of breast tumor tissues obtained from cancer surgeries

A 17 GHz bandwidth 1.2 mW CMOS switching matrix for UWB breast cancer imaging

125 mW 102.4 GS/s Ultra-High-Speed Sampling Circuit for Complementary Metal–Oxide–Semiconductor Breast Cancer Detection System

CMOS equivalent time sampling of Gaussian monocycle pulse for confocal imaging

A ring-VCO-based sub-sampling PLL CMOS circuit with &#x2212;119 dBc/Hz phase noise and 0.73 ps jitter

Contact Info

Product

Resources

About

A ring-VCO-based sub-sampling PLL CMOS circuit with −119 dBc/Hz phase noise and 0.73 ps jitter