Add to ORKGThe cosmic-ray records of meteorites are used to infer much about their origins and recent histories. The methods used to interpret meteorites' cosmic-ray records, especially identifying simple or complex exposure histories, often are inadequate. Spallogenic radionuclides, stable nuclides, and measurements of products that have location-sensitive production rates, such as the tracks of heavy cosmic-ray nuclei or neutron-capture nuclides, are very useful in accurately determining a meteorite's history. Samples from different, known locations of a meteorite help in studying the cosmic-ray record. Such extensive sets of meteorite measuremetns, plus theoretical modeling of complex histories, improves the ability to predict the production of cos...
particles in the asteroidal belt, coupled with the fact that there is a high mass cut-off for chondr...
Different fluxes and spectra of galactic cosmic rays (GCR) and solar cosmic rays result in a wide va...
The cosmogenic radionuclides $\sp{26}$Al (t$\sb{{1\over 2}}$ = 0.71 Myr), $\sp{10}$Be (t$\sb{{1\over...
Statistically significant clusters in the cosmic ray exposure age distributions of some groups of ir...
Major advance in relating a young-earth creationist viewpoint to scientific data has come from recog...
Records of cosmogenic effects were studied in a large suite of Antarctic meteorites. The cosmogenic ...
All available data for the concentration of cosmogenic nuclides Mn-53(t(1/2) = 3.7 x 10(6) years), A...
Cosmogenic radionuclides 10Be(t½ = 1.50 Ma), 26 Al(t½ = 705 ka), and 36Cl(t½ = 301 ka), measured by ...
Jilin, the largest known story meteorite, is a very suitable object for studying the systematics of ...
Study of several cosmic ray effects, such as VH track density, spallogenic 26Al and 53Mn activity, 2...
The galactic cosmic particle radiation (GCR) can cause changes in condensed extraterrestrial matter ...
Concentrations of stable and radioactive nuclides produced by cosmic ray particles in meteorites all...
Through the interaction of galactic cosmic particle radiation (GCR) a wide variety of cosmogenic nuc...
Cosmic-ray-produced (cosmogenic) nuclides were studied in fragments of the Brenham pallasite, a larg...
A stony meteorite fell in the village Devgaon, Bastar district, Chattisgarh, Central India on 2001 F...
particles in the asteroidal belt, coupled with the fact that there is a high mass cut-off for chondr...
Different fluxes and spectra of galactic cosmic rays (GCR) and solar cosmic rays result in a wide va...
The cosmogenic radionuclides $\sp{26}$Al (t$\sb{{1\over 2}}$ = 0.71 Myr), $\sp{10}$Be (t$\sb{{1\over...
Statistically significant clusters in the cosmic ray exposure age distributions of some groups of ir...
Major advance in relating a young-earth creationist viewpoint to scientific data has come from recog...
Records of cosmogenic effects were studied in a large suite of Antarctic meteorites. The cosmogenic ...
All available data for the concentration of cosmogenic nuclides Mn-53(t(1/2) = 3.7 x 10(6) years), A...
Cosmogenic radionuclides 10Be(t½ = 1.50 Ma), 26 Al(t½ = 705 ka), and 36Cl(t½ = 301 ka), measured by ...
Jilin, the largest known story meteorite, is a very suitable object for studying the systematics of ...
Study of several cosmic ray effects, such as VH track density, spallogenic 26Al and 53Mn activity, 2...
The galactic cosmic particle radiation (GCR) can cause changes in condensed extraterrestrial matter ...
Concentrations of stable and radioactive nuclides produced by cosmic ray particles in meteorites all...
Through the interaction of galactic cosmic particle radiation (GCR) a wide variety of cosmogenic nuc...
Cosmic-ray-produced (cosmogenic) nuclides were studied in fragments of the Brenham pallasite, a larg...
A stony meteorite fell in the village Devgaon, Bastar district, Chattisgarh, Central India on 2001 F...
particles in the asteroidal belt, coupled with the fact that there is a high mass cut-off for chondr...
Different fluxes and spectra of galactic cosmic rays (GCR) and solar cosmic rays result in a wide va...
The cosmogenic radionuclides $\sp{26}$Al (t$\sb{{1\over 2}}$ = 0.71 Myr), $\sp{10}$Be (t$\sb{{1\over...