Gravitational wave generation in loop quantum cosmology

Exposure to radon, (222)Rn, is assumed to be the most significant source of natural radiation to human beings in most cases. It is thought that radon and its progeny are major factors that cause cancer. The presence of thoron, (220)Rn, was often neglected because it was considered that the quantity of thoron in the environment is less than that of radon. However, recent studies have shown that a high thoron concentration was found in some regions and the exposure to (220)Rn and its progeny can equal or several time exceed that of (220)Rn and its progeny. The results of thoron and its progeny measurements in the houses of high background radiation area (HBRA) of the southeastern coast of Odisha, India presented here. This area is one of the high background radiation areas in India with a large deposit of monazite sand which is the probable source of thoron. Both active and passive methods were employed for the measurement of thoron and its progeny in cement, brick and mud houses in the study area. Thoron concentration was measured using RAD-7 and Raduet. A CR-39 track detector was employed for the measurement of environmental thoron progeny, both in active and passive modes. Thoron and its progeny concentrations were found to be comparatively high in the area. A comparison between the results obtained with various techniques is presented in this paper.

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Preliminary indoor thoron measurements in high radiation background area of southeastern coastal Orissa, India

Ramola

Prasad

Gusain

et al. 2010

Radiation Protection Dosimetry

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This paper presents the preliminary results of radon and thoron measurements in the houses of Chhatrapur area of southeastern coast of Orissa, India. This area is one of the high radiation background radiation areas in India, which consists of monazite sand as the source of thoron. Both active and passive methods were employed for the measurements. Radon and thoron concentrations were measured in the houses of Chhatrapur area using twin cup radon dosemeters, RAD7 and radon-thoron discriminative detector (Raduet). Thoron progeny concentration was also measured in the houses using deposition rate measurements. Radon and thoron concentrations in the houses of study area were found to vary from 8 to 47 Bq m(-3) and the below detection level to 77 Bq m(-3), respectively. While thoron progeny concentration in these houses ranges between 0.17 and 4.24 Bq m(-3), preliminary investigation shows that the thoron concentration is higher than radon concentration in the houses of the study area. The thoron progeny concentration was found to be comparatively higher, which forms a base for further study in the area. The comparison between the results of various techniques is presented in this paper.

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Scanner observations of P/Halley (1982i)

1988

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Extension of the coma of P/Halley

1988

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Distribution of terrestrial gamma radiation dose rate in the eastern coastal area of Odisha, India

Gusain¹,

Rautela²,

Sahoo³

et al. 2012

Radiation Protection Dosimetry

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B. S. Rautela

Levels of thoron and progeny in high background radiation area of southeastern coast of Odisha, India

Preliminary indoor thoron measurements in high radiation background area of southeastern coastal Orissa, India

Scanner observations of P/Halley (1982i)

Extension of the coma of P/Halley

Distribution of terrestrial gamma radiation dose rate in the eastern coastal area of Odisha, India

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