Add to ORKGCosmogenic Ne-21 is used widely to calculate exposure ages of stone meteorites. In order to do so, the production rate P(21) must be known. This rate, however, is dependent on the chemical composition of the meteorite as well as the mass of, and position within, the meteoroid during its exposure to the cosmic radiation. Even for a mean shielding the production rates determined from measurments of different radionuclides vary by a factor of two. A method that can be used to determine exposure ages of meteorites that avoids shielding and chemical composition corrections is the -81-Kr-Kr-method. However, for chondrites, in many cases, the direct determination of production rates for the Kr isotopes is prevented by the trapped gases and the neu...
The cosmic abundance of ^(244)Pu is an important parameter in models of nucleosynthetic chronology a...
Here we present the first purely physical model for cosmogenic production rates in iron meteorites w...
Published cosmogenic 36Cl SLHL production rates from Ca and K spallation differ by almost 50% (Gosse...
We present physical model calculations for the production of cosmogenic Kr isotopes in stony meteori...
Cosmogenic ^Kr as well as other noble gases of three ordinary chondrites Long Island (L6), Densmore ...
The cosmic ray produced Ar-36/Ar-38 ratio measured in iron meteorites is about 0.65, but is not well...
The concentrations of cosmogenic nuclides were studied as a function of shielding on samples from a ...
Jilin, the largest known story meteorite, is a very suitable object for studying the systematics of ...
Statistically significant clusters in the cosmic ray exposure age distributions of some groups of ir...
The depth profiles of cosmic ray tracks and radiisotopes such as 53Mn, 26Al, 60Co etc measured in so...
We calibrated the ⁸¹Kr-Kr dating system for ordinary chondrites of different sizes using independent...
International audienceWe measured noble gas concentrations and isotopic ratios (He, Ne, and Ar isoto...
Depth profiles of the cosmogenic isotopes 3He, 20e, 21Ne, 22Ne, 10Be and 26A1 have been measured by ...
An exposure age for an iron meteorite can be calculated from measurements of a radioactive nuclide a...
Measurements of particle tracks, cosmogenic radionuclides, and rare gas isotopes in Mbale indicate t...
The cosmic abundance of ^(244)Pu is an important parameter in models of nucleosynthetic chronology a...
Here we present the first purely physical model for cosmogenic production rates in iron meteorites w...
Published cosmogenic 36Cl SLHL production rates from Ca and K spallation differ by almost 50% (Gosse...
We present physical model calculations for the production of cosmogenic Kr isotopes in stony meteori...
Cosmogenic ^Kr as well as other noble gases of three ordinary chondrites Long Island (L6), Densmore ...
The cosmic ray produced Ar-36/Ar-38 ratio measured in iron meteorites is about 0.65, but is not well...
The concentrations of cosmogenic nuclides were studied as a function of shielding on samples from a ...
Jilin, the largest known story meteorite, is a very suitable object for studying the systematics of ...
Statistically significant clusters in the cosmic ray exposure age distributions of some groups of ir...
The depth profiles of cosmic ray tracks and radiisotopes such as 53Mn, 26Al, 60Co etc measured in so...
We calibrated the ⁸¹Kr-Kr dating system for ordinary chondrites of different sizes using independent...
International audienceWe measured noble gas concentrations and isotopic ratios (He, Ne, and Ar isoto...
Depth profiles of the cosmogenic isotopes 3He, 20e, 21Ne, 22Ne, 10Be and 26A1 have been measured by ...
An exposure age for an iron meteorite can be calculated from measurements of a radioactive nuclide a...
Measurements of particle tracks, cosmogenic radionuclides, and rare gas isotopes in Mbale indicate t...
The cosmic abundance of ^(244)Pu is an important parameter in models of nucleosynthetic chronology a...
Here we present the first purely physical model for cosmogenic production rates in iron meteorites w...
Published cosmogenic 36Cl SLHL production rates from Ca and K spallation differ by almost 50% (Gosse...