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    Journals >NUCLEAR TECHNIQUES >Volume 47 >Issue 1 >Page 010002 > Article
    • NUCLEAR TECHNIQUES
    • Vol. 47, Issue 1, 010002 (2024)
    Effect of related parameters on exposure age and erosion rate obtained via rock surface luminescence dating
    Ming LUO1,2,3, Zhijun GONG1,*, Fusheng GUO1, and Huaming PENG1
    Author Affiliations
  • 1School of Earth Sciences, East China University of Technology, Nanchang 330013, China
  • 2Key Laboratory for Digital Land and Resources of Jiangxi Province, East China University of Technology, Nanchang 330013, China
  • 3State Key Laboratory of Earthquake Dynamics, Institute of Geology, China Earthquake Administration, Beijing 100029, China
    • show less
    DOI: 10.11889/j.0253-3219.2024.hjs.47.010002 Cite this Article
    Ming LUO, Zhijun GONG, Fusheng GUO, Huaming PENG. Effect of related parameters on exposure age and erosion rate obtained via rock surface luminescence dating[J]. NUCLEAR TECHNIQUES, 2024, 47(1): 010002 Copy Citation Text show less
    References

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    [11] LI Yang, Xianjiao OU, WEN Jiajie et al. Bleaching characteristics of young glacial cobbles and its implications for rock luminescence burial dating[J]. Journal of Glaciology and Geocryology, 44, 1395-1405(2022).

    [12] WEN Jiajie, Xianjiao OU, LI Yang et al. Rapid evaluation of gravel drying degree in rock luminescence burial dating[J]. Quaternary Sciences, 42, 1462-1474(2022).

    [13] Smith L N, Sohbati R, Jain M. Rock surface luminescence dating of gravel determines the age of a glacial outburst megaflood, Glacial Lake Missoula, Montana, USA[J]. Geology, 51, 323-328(2023).

    [14] Gliganic L A, Meyer M C, May J H et al. Direct dating of lithic surface artifacts using luminescence[J]. Science Advances, 7, eabb3424(2021).

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    [17] Luo M, Chen J, Liu J F et al. A test of rock surface luminescence dating using glaciofluvial boulders from the Chinese Pamir[J]. Radiation Measurements, 120, 290-297(2018).

    [18] Brown N D, Moon S. Revisiting erosion rate estimates from luminescence profiles in exposed bedrock surfaces using stochastic erosion simulations[J]. Earth and Planetary Science Letters, 528, 115842(2019).

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    [20] Elkadi J, Lehmann B, King G E et al. Quantification of post-glacier bedrock surface erosion in the European Alps using 10Be and optically stimulated luminescence exposure dating[J]. Earth Surface Dynamics, 10, 909-928(2022).

    [21] Sohbati R, Hippe K. OSL-14C-10Be: a novel composite geochronometer for simultaneous quantification of timing and magnitude of change in bedrock outcrop erosion rate[J]. Earth Surface Processes and Landforms, 48, 322-331(2023).

    [22] Luo M, Chen J E, Owen L A et al. A novel approach for reconstructing slip histories for bedrock fault scarps using rock surface luminescence dating[J]. Geophysical Research Letters, 49, e2022GL099526(2022).

    [23] Sohbati R, Jain M, Murray A S. Surface exposure dating of non-terrestrial bodies using optically stimulated luminescence: a new method[J]. Icarus, 221, 160-166(2012).

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    [32] Buylaert J P, Murray A S, Thomsen K J et al. Testing the potential of an elevated temperature IRSL signal from K-feldspar[J]. Radiation Measurements, 44, 560-565(2009).

    [33] Li B, Li S H. Luminescence dating of K-feldspar from sediments: a protocol without anomalous fading correction[J]. Quaternary Geochronology, 6, 468-479(2011).

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    Ming LUO, Zhijun GONG, Fusheng GUO, Huaming PENG. Effect of related parameters on exposure age and erosion rate obtained via rock surface luminescence dating[J]. NUCLEAR TECHNIQUES, 2024, 47(1): 010002
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