Cosmogenic 3He in Himalayan garnets indicating an altitude dependence of the 3He/10Be production ratio

Details Cosmogenic 3He in Himalayan garnets indicating an altitude dependence of the 3He/10Be production ratio Cosmogenic 3He in Himalayan garnets indicating an altitude dependence of the 3He/10Be production ratio

Dec 2004

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004e%26psl.229...91g&link_type=abstract

Earth and Planetary Science Letters, Volume 229, Issue 1-2, p. 91-104.

Mathematics

Probability

7

3He, 10Be, Production Rate, Cosmogenic Nuclide, Himalaya, Cross-Calibration

Scientific paper

To investigate the potential of using cosmogenic helium in garnet as a dating tool, 3Hec and 10Bec have been measured within garnets and coexisting quartz, respectively, sampled in the Himalayan range at various elevations. Comparison and correlation of 3Hec and 10Bec concentrations demonstrate that cosmogenic 3He is well retained in Himalayan garnets and can thus be used in this mineral to quantify precisely earth's surface processes. This, in the case of recently cooled orogenic samples which contain limited amounts of non-cosmogenic helium. For these high-elevation samples, the exposure ages derived from 3Hec using classical scaling factors lead however to an overestimation of 3Hec ages, compared to 10Bec ages (0.1 to 28 ky), by up to a factor of 2. Additionally, over the samples altitude range (3000 4622 m), the theoretically invariant polar 3Hec/10Bec production ratio (˜22.5), increases with increasing elevation, challenging classical models of production rate evolution. To explain this observation, we propose a new 3Hec production mechanism, based on the altitudinal dependence of the energy spectrum of cosmic rays, and according to which neutrons or protons resulting from a first spallation reaction within the rock (tertiary particles) may have sufficient energy to induce an additional in situ spallation reaction producing a second 3H or 3He, but insufficient energy to produce 10Be, the probability of such a mechanism increasing with altitude. According to these observations, we propose for future and ongoing studies to use the empirically determined attenuation length of 121 g/cm2 for helium production at high altitude.

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