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000825403 1001_ $$0P:(DE-Juel1)168122$$aLudhova, Livia$$b0$$eCorresponding author$$ufzj
000825403 1112_ $$aMagellan Workshop$$cHamburg$$d2016-03-17 - 2016-03-18$$wGermany
000825403 245__ $$aNeutrino Geoscience
000825403 260__ $$bDeutsches Elektronen-Synchrotron, DESY, Hamburg$$c2016
000825403 300__ $$a157 - 164
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000825403 520__ $$aNeutrino geoscience is a newly born interdisciplinary field having as its main aim determination of the Earths radiogenic heat through measurement of geoneutrinos: antineutrinos released in decays of long-lived radioactive elements inside the Earth. In fact, such measurements are a unique direct way how to pin-down this key element for many geophysical and geochemical Earths models. The large--volume liquid scintillator detectors, originally built to measure neutrinos or anti-neutrinos from other sources, are capable to detect geoneutrinos, as it was demonstrated by KamLAND (Japan) and Borexino (Italy) experiments. Several future projects as SNO+ or JUNO have geoneutrino measurements among their scientific goals. This work covers the status-of-art of this new field, summarising its potential in terms of geoscience, the status of existing experimental results, and future prospects.
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