[1] Gordon G. D. Zhou*, Kahlil Fredrick E. Cui*, L. Jing, Anne Mangeney, Y. Cui, Yu Huang, X. Chen (2024). Segregation‐induced flow transitions in rock-ice mixtures: Implications for rock-ice avalanche dynamics. Journal of Geophysical Research: Earth Surface, 129(9), e2024JF007831
[2] Gordon G.D. Zhou, Xueqiang Lu*,Yunxu Xie,Kahlil Cui, H. Tang (2022). Mechanisms of the Non-Uniform Breach Morphology Evolution of Landslide Dams Composed of Unconsolidated Sediments During Overtopping Failure. Journal of Geophysical Research: Earth Surface, 127(10), e2022JF006664
[3] Gordon G. D. Zhou, Kahlil Fredrick E. Cui*,L. Jing,D. Song, T. Zhao, Yu Huang (2020). Particle size segregation in granular mass flows with different ambient fluids. Journal of Geophysical Research: Solid earth. 125(10), e2020JB019536
[4] Gordon G. D. Zhou, Mingjun Zhou*, Mandira Singh Shrestha, Dongri Song, Clarence E. Choi, Kahlil Fredrick E. Cui, Ming Peng, Zhenming Shi, Xinghua Zhuand Huayong Chen (2019). Experimental investigation on the longitudinal evolution of landslide dam breaching and outburst floods. Geomorphology, 334: 29-43
[5] Gordon G. D. Zhou, S. Li*, D. Song, C.E Choi, and X. Chen. (2019). Depositional mechanisms and morphology of debris flow: physical modelling. Landslides. 16(2): 315-332
[6] Gordon G. D. Zhou, S. Li*, X. Lu, H. Tang (2022). Large-scale landslide dam breach experiments: Overtopping and “overtopping and seepage” failures. Engineering Geology, 304, 106680
[7] Nanjun Li, Gordon G.D. Zhou*, Kahlil F. E. Cui, Yong Kong, and Yu Huang (2024). The influence of the slit size and spacing on the impact force of dry granular flows on slit dams. Geotechnique, 1-38.
[8] Kahlil Fredrick E. Cui, Gordon G. D. Zhou*, L. Jing (2021). Viscous effects on the particle size segregation in geophysical mass flows: insights from immersed granular shear flow simulations. Journal of Geophysical Research: Solid earth. 126(8), e2021JB022274
[9] Kahlil F. E. Cui, Gordon G.D. Zhou*, Teng Man, Yu Huang, Yongshuang Zhang, Xueqiang Lu, Tao Zhao (2025). Modelling the dense granular flow rheology of particles with different surface friction: implications for geophysical mass flows. Journal of Geophysical Research: Earth Surface. 130, e2024JF008048
[10] J. H. Du,Gordon G. D. Zhou*, H. Tang,Jens M Turowski, Kahlil F. E. Cui, (2023). Classification of Stream, Hyperconcentrated, and Debris Flow Using Dimensional Analysis and Machine Learning. Water Resources Research, 59(2), e2022WR033242.
[11] J. H. Du, Gordon G. D. Zhou*, Kahlil F. E. Cui, (2023). Microscopic Description of Basal Stress Generated by Granular Free-surface Flows. Journal of Geophysical Research: Earth Surface, 128(5), e2022JF006953
[12] 周公旦,崔鹏*,吴宏伟,游勇,钟卫,宋东日,周垂一,沈宏伟,尚明生,张学睿,山地灾害大尺度动力学模拟实验平台.中国科学院院刊, 2024, 39(8): 1458-1467