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[1] Li, X. H., Chu W. C., Zhang Y., et al. 2024. Extending a dry- environment convection parameterizat…
2025-06-11
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[2] Li, X. H., Zhang Y., Lin Y. L., et al. 2023. Impact of a revised trigger- closure of the double-pl…
2025-06-11
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[3] Li, X. H., Zhang Y., Peng X. D., et al. 2023. Intercomparison of the weather and climate physics s…
2025-06-11
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[4] Li, X. H., Zhang Y., Peng X. D., et al., 2022. Improved climate simulation by using a double-plume…
2025-06-11
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[5] Li, X. H., Peng X. D., and Zhang Y. 2020. Investigation of the effect of the time step on the phys…
2025-06-11
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[6] Li, X. H., and Peng X. D. 2018. Long-term integration of a global non-hydrostatic atmospheric mode…
2025-06-11
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[7] Li, X. H., Peng X. D., and Li X. L. 2015. An improved dynamic core for GRAPES on the Yin-Yang grid…
2025-06-11
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[8] Fu, Z., Zhang Y., Li X. H., et al. 2025. Intercomparison of two model climates simulated by a unif…
2025-06-11
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[9] Fu, Z., Zhang Y., Li X. H., and Rong X. Y. 2024. Intercomparison of two model climates simulated b…
2025-06-11
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[10] Chen, S. Y., Zhao Y. F., Peng X. D., and Li X. H. 2023. A global-regional-unified atmospheric dyna…
2025-06-11
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[11] Zhao, Y. F., Peng X. D., Li X. H., and Chen S. Y. 2024. Improved diurnal cycle of precipitation on…
2025-06-11
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[12] Zhang, Y., Li X. H., Liu Z., et al. 2022. Resolution sensitivity of the GRIST nonhydrostatic model…
2025-06-11