The Euganean Hills of North East Italy have long been recognised as an area characterized by a higher than average natural radiation background. This is due to two main reasons: a) primary lithogenic radiation due to rhyolitic and trachytic outcrops, which are "acidic alkaline" magmatic rocks potentially enriched in uranium and thorium; b) secondary sources related to a geothermal field - widely exploited for spa tourism in the area since the Roman age - producing surface release of radon-enriched fluids. Though radioactivity levels in the Euganean district have been often investigated in the past - including recent works aimed at assessing the radiation doses from radon and/or total gamma radiation - no effort has been put so far into prod...
open5noVulsini Volcanic district in Northern Latium (Central Italy) is characterized by high natural...
In this study, the equivalent dose rate of natural radionuclides ( ...
The presence of heavy minerals, including radionuclides such as 238U and 232Th, in the beach placers...
The Euganean Hills of North East Italy have long been recognised as an area characterised by a highe...
The Euganean Hills of North East Italy have long been recognised as an area characterized by a highe...
An integration of laboratory radon and thoron exhalation data with gamma radiation mapping is applie...
The main goal of this work was to assess the radiological hazard at Alte Madonie Mounts region (nort...
Terrestrial gamma radiation is mostly due to radionuclides in soil and rocks, primarily the 238U, 23...
In this paper, we report an extensive survey of the natural radioactive content of rocks of the Tusc...
Radon isotopes (222Rn and 220Rn) generated within the upper layers of the Earth's crust by ...
This paper presents new data on the baseline concentrations of U, Th and K in 2389 stream sediments ...
Radon (222 Rn) is a natural radioactive gas formed in rocks and soil by the decay of its parent nucl...
Radon (222Rn) is a natural radioactive gas formed in rocks and soil by the decay of its parent nucli...
The environmental background levels of natural radiation due to the nuclides in rocks vary in signif...
An empirical method was applied to estimate the 222Rn fluxes distribution across the Campania region...
open5noVulsini Volcanic district in Northern Latium (Central Italy) is characterized by high natural...
In this study, the equivalent dose rate of natural radionuclides ( ...
The presence of heavy minerals, including radionuclides such as 238U and 232Th, in the beach placers...
The Euganean Hills of North East Italy have long been recognised as an area characterised by a highe...
The Euganean Hills of North East Italy have long been recognised as an area characterized by a highe...
An integration of laboratory radon and thoron exhalation data with gamma radiation mapping is applie...
The main goal of this work was to assess the radiological hazard at Alte Madonie Mounts region (nort...
Terrestrial gamma radiation is mostly due to radionuclides in soil and rocks, primarily the 238U, 23...
In this paper, we report an extensive survey of the natural radioactive content of rocks of the Tusc...
Radon isotopes (222Rn and 220Rn) generated within the upper layers of the Earth's crust by ...
This paper presents new data on the baseline concentrations of U, Th and K in 2389 stream sediments ...
Radon (222 Rn) is a natural radioactive gas formed in rocks and soil by the decay of its parent nucl...
Radon (222Rn) is a natural radioactive gas formed in rocks and soil by the decay of its parent nucli...
The environmental background levels of natural radiation due to the nuclides in rocks vary in signif...
An empirical method was applied to estimate the 222Rn fluxes distribution across the Campania region...
open5noVulsini Volcanic district in Northern Latium (Central Italy) is characterized by high natural...
In this study, the equivalent dose rate of natural radionuclides ( ...
The presence of heavy minerals, including radionuclides such as 238U and 232Th, in the beach placers...