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Han Z, Wang R., Guo X, Gaillard F., Ni H.W. (2026) Hydrous ultrapotassic melts and trans-lithospheric weakening of Himalayan-Tibetan orogenesis. Geology doi: https://doi.org/10.1130/G54026.1.2026,
Guo X., Ding J., Li S., Li W., Ni H.W. (2026). Electrical conductivity measurement criteria for silicate and carbonate melts at high pressure: Two-electrode versus pseudo-four-electrode methods. Solid Earth Sciences 11: 100293.2026,
Ding J., *Guo X., Zhang L., Li Y., Mao Z., *Ni H.W. (2025) Electrical conductivity of H2O-rich silicate melt: implications for subduction zone magnetotelluric anomalies. Journal of Geophysical Research, 130, e2024JB030224..2025,
郭璇,张力,颜晗,倪怀玮 (2024) 硅酸盐熔体的物理性质及其对地球深部状态和过程的启示. 矿物岩石地球化学通报,43(6):1113–1132..2024,
Guo, X., Li, W.-C., Zhang, L., & Ni, H. (2022). Determination of the H2O-saturated solidus of albite by electrical conductivity. Journal of Geophysical Research: Solid Earth, 127, e2021JB023269..2022,
Guo X., Wang Q., Li B., Zha X.-P., Gong B., Ni H. (2021) Electrical conductivity of CO2 and H2O-bearing nephelinitic melt. Journal of Geophysical Research, 126, e2020JB019569.2021,
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Research Projects
实验研究熔体/流体电导率及其对喜马拉雅-青藏高原地壳高导区的制约,进行,
二氧化碳和水对霞石岩熔体电导率的影响:实验测定和应用,进行,
含挥发分的流纹质熔体电导率的测定和应用,进行,
郭璇
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