Yutaka Kometani scite author profile

We developed a pinhole gamma camera to measure distributions of radioactive material contaminants and to identify radionuclides in extraordinarily high dose regions (1,000 mSv/h). The developed gamma camera is characterized by: (1) tolerance for high dose rate environments; (2) high spatial and spectral resolution for identifying unknown contaminating sources; and (3) good usability for being carried on a robot and remotely controlled. These are achieved by using a compact pixelated detector module with CdTe semiconductors, efficient shielding, and a fine resolution pinhole collimator. The gamma camera weighs less than 100 kg, and its field of view is an 8 m square in the case of a distance of 10 m and its image is divided into 256 (16 x 16) pixels. From the laboratory test, we found the energy resolution at the 662 keV photopeak was 2.3% FWHM, which is enough to identify the radionuclides. We found that the count rate per background dose rate was 220 cps h/mSv and the maximum count rate was 300 kcps, so the maximum dose rate of the environment where the gamma camera can be operated was calculated as 1,400 mSv/h. We investigated the reactor building of Unit 1 at the Fukushima Dai-ichi Nuclear Power Plant using the gamma camera and could identify the unknown contaminating source in the dose rate environment that was as high as 659 mSv/h.

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Thermal Degradation of Polytrifiuorochloroethylene in Air

Satokawa¹,

Kometani²,

Sueyoshi³

1960

The Journal of the Society of Chemical Industry, Japan

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Thermal Degradation of Polytrifluoroethylene in Nitrogen

Satokawa¹,

Kometani²,

Sueyoshi³

1960

The Journal of the Society of Chemical Industry, Japan

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Kometani¹

1978

Kobunshi

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Yutaka Kometani

Structure and dielectric properties of vinylidene fluoride copolymers

Spectroscopic gamma camera for use in high dose environments

Thermal Degradation of Polytrifiuorochloroethylene in Air

Thermal Degradation of Polytrifluoroethylene in Nitrogen

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