Shin Ogasahara scite author profile

To minimize the damage caused by slope failure, knowledge of the increase in water content in mountain soil is important. Our group has been studying miniaturized impedance sensors for multipoint measurements in soil. Conventional sensors with a SiN x top film sometimes cannot detect changes in the water content in soil resulting from rain. Experiments on the slide distances of water droplets were performed using SiO x and SiN x films. As the slide distance of the SiO x film was shorter than that of the SiN x film, it was confirmed that the SiO x film is more hydrophilic than the SiN x film. To improve contact characteristics between the sensor surface and free water in soil, we covered our conventional sensor chip with a hydrophilic SiO x film. As a contact property test, the sensor chip measured the impedances of model soils. The proposed sensor achieved stable contact with the free water in the soil. Moreover, the chip operated for a long period of time on a mountain slope. The sensor could measure nearly theoretical outputs in response to rainfall. Thus, we succeeded in fabricating a stable soil monitor sensor with a hydrophilic SiO x film.

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Fabrication of a low leakage current type impedance sensor to monitor soil water content for slope failure prognostics

Futagawa

Ogasahara

Ito

et al. 2017

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Shin Ogasahara

True random number generator using current difference based on a fractional stochastic model in 40-nm embedded ReRAM

A ReRAM-based physically unclonable function with bit error rate < 0.5% after 10 years at 125°C for 40nm embedded application

Fabrication of a low leakage current type impedance sensor with shielding structures to detect a low water content of soil for slope failure prognostics

Fabrication of Impedance Sensor with Hydrophilic Property to Monitor Soil Water Content for Slope Failure Prognostics

Fabrication of a low leakage current type impedance sensor to monitor soil water content for slope failure prognostics

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