期刊论文:
[1] Fang, X.-Y., G. Yao*, Q.-Q. Zheng, P.-M. Zhang, D. Wu, and F.-L. Niu, 2024, Helmholtz decomposition with a scalar Poisson equation in elastic anisotropic media: Petroleum Science, 21.
[2] Wu, B., G. Yao*, X. Ma, H. Chen, D. Wu, and J. Cao, 2024, Least-squares reverse time migration of simultaneous sources with deep-learning-based denoising: geophysics, 89, no. 3, S289-S299.
[3] Yao*, G., X. Fang, Q. Zheng, D. Wu, and F. Niu, 2024, Pseudo-Helmholtz decomposition for an elastic VTI wavefield based on wavefront phase direction: geophysics, 89, no. 3, T151-T162.
[4] Zhang, P., G. Yao*, Q. Zheng, X. Fang, and D. Wu, 2024, An improved pure quasi-P-wave equation for complex anisotropic media: Journal of Geophysics and Engineering, 21, no. 2, 517-533.
[5] Ma, X., G. Yao*, S. Yuan, F. Zhang, and D. Wu, 2024, Seismic Coherent Noise Removal With Residual Network and Synthetic Seismic Samples: IEEE Geoscience and Remote Sensing Letters, 21, 1-5.
[6] Zhang, P., and G. Yao*, 2024, Numerical simulation of seismic wavefield based on modified EAL boundary condition: Chinese Journal of Geophysics (in Chinese), 67, no. 1, 261-276.
[7] 张平民, and 姚刚*, 2024, 基于改进的EAL边界条件的地震波场数值模拟: 地球物理学报, 67, no. 1, 261-276.
[8] Zheng, Q., and G. Yao*. 2023, An improved elastic wavefield separation method based on the Helmholtz decomposition. Geophysics, 88, no. 4,1-35.
[9] Fang, X, G. Yao*, F. Niu, and D. Wu. 2023, Estimating optimal parameters of finite-difference scheme for wavefield modelling. Chinese Journal of Geophysics (in Chinese), 66, no. 5. doi: 10.6038/cig2022Q0466.
[10] G.Yao, IJingjie Cao , Nuno V.da Silvan. 2022, Interpolation of Irregularly Sampled Noisy Seismic Data with the Nonconvex Regularization and Proximal Method. Pure and Applied Geophysics, 179,663–678.
[11] Gang Yao, Bo Wu, Nuno V. da Silva, Henry A. Debens, Di Wu, and Jingjie Cao. 2022, Least-squares reverse-time migration with a multiplicative Cauchy constraint. Geophysics, 87, no. 3,1MJ-V246.
[12] Bo Wu, Gang Yao, Jing-Jie Cao, Di Wu, Xiang Li, Neng-Chao Liu. 2022,Huber inversion-based reverse-time migration with de-primary imaging condition and curvelet-domain sparse constraint. Petroleum Science, 18.
[13] Nengchao Liu, Gang Yao, Jianye Zhou, Shang xu Wang, Di Wu, Xiang Li *. 2022, Two Improved Acquisition Systems for Deep Subsurface Exploration. Frontiers in Earth Science, 11407.
[14] Xiang Li, Gang Yao, Fenglin Niu, Di Wu, and Nengchao Liu. 2022, Waveform inversion of seismic first arrivals acquired on irregular surface. Geophysics, 87, no. 3,1MJ-V246.
[15] Xiuzheng Fang, Di Wu, Fenglin Niu, Gang Yao. 2021, A new implementation of convolutional PML for second-order elastic wave equation. Exploration Geophysics, 1-16.
[16] Wu, D., Y. Wang, J. Cao, N. V. da Silva, and G. Yao*. 2021, Least-squares reverse-time migration with sparsity constraints. Journal of Geophysics and Engineering, 18, no. 2,304-316.
[17] Chen Hanming, Zhou Hui, Rao Ying, 2021, Source wavefield reconstruction in fractional Laplacian viscoacoustic wave equation-based full waveform inversion: IEEE Transactions on Geoscience and Remote Sensing, 59(8), 6496-6509.
[18] Qingqing Zheng, Yuanzhe Xi, Yousef Saad, Powered Schur complement low-rank correction preconditioners for general sparse matrices, SIAM Journal on Matrix Analysis and Applications, 42(2) (2021) 659-682
[19] Yao, G., S.X. Wang*, D. Wu. 2020, A review on reflection waveform inversion. Petroleum Science, no. 2, 334-351.
[20] Chen Hanming, Zhou Hui, Rao Ying, 2020, An implicit stabilization strategy for Q-compensated reverse time migration: Geophysics 85 (3), S169-S183.