10篇代表作:
1. Jincheng Xu, Jianfeng Zhang*, 2024, Improving prestack time migration by introducing a new velocity-related parameter: Parameter picking and 3D real data application. Geophysics, 89(1): S119-S127.
2. Jincheng Xu, Jianfeng Zhang, 2023, Efficient prestack time migration velocity analysis: A correlation‐based global optimization approach. Geophysical Prospecting, 71(6), 998-1001.
3. Jincheng Xu, Wei Zhang, Xing Liang, Jiaojun Rong, and Junlun Li, 2021, Joint microseismic moment-tensor inversion and location using P- and S-wave diffraction stacking. Geophysics, 86(6), KS137-KS150.
4. Jincheng Xu, Wei Zhang, Xiaofei Chen, and Quanshi Guo, 2020, An effective polarity correction method for microseismic migration-based location. Geophysics, 85(4), KS115-KS125.
5. Jincheng Xu, Jianfeng Zhang, Linong Liu, Wei Zhang, and Hui Yang, 2020, Prestack time migration from 3D irregular surfaces with near-surface-related deabsorption. Geophysics, 85(1), S21-S32.
6. Jincheng Xu, Wei Zhang, Xiaofei Chen, and Quanshi Guo, 2019, Minimum semblance weighted stacking with polarity correction for surface microseismic data processing. The Leading Edge, 38(8): 630-636.
7. Jincheng Xu, Wei Liu, Jin Wang, Linong Liu and Jianfeng Zhang, 2018, An efficient implementation of 3D high-resolution imaging for large-scale seismic data with GPU/CPU heterogeneous parallel computing. Computers & Geosciences, 111, 272-282.
8. Jincheng Xu, Hao Zhang, Jianfeng Zhang, 2018, A robust surface-consistent residual phase corrections method based on migrated gathers. Exploration Geophysics, 49, 336-344.
9. Jincheng Xu, Jianfeng Zhang, 2017, Prestack time migration of nonplanar data: Improving topography prestack time migration with dip-angle domain stationary-phase filtering and effective velocity inversion. Geophysics, 82(3), S235-S246.
10. Jincheng Xu, Hao Zhang, Jianfeng Zhang, Zhengwei Li and Wei Liu, 2017, Pre-stack time migration based onstationary-phase stacking in the dip-angle domain. Journal of Geophysics and Engineering, 14(2017), 272-282.
发明专利:
[1] 徐锦承. 一种剩余时差校正的微地震定位方法及相关设备,2023,专利号:2023112457229
[2] 徐锦承,张剑锋. 一种二参数叠前时间偏移方法及系统,2023,专利号:202310477744.1
[3] 徐锦承,张剑锋. 一种双参数剩余动校正方法, 2022, 专利号:202211266623.4
[4] 徐锦承,张剑锋. 一种地震偏移速度自动分析方法,2022,专利号:202210485227.4
[5] 徐锦承,张剑锋,刘礼农. 一种起伏地表Q 偏移地震成像方法、装置及终端设备,2021,专利号:202111542808.9
[6] 徐锦承,张伟. 一种微地震定位方法、存储介质及设备, 2022,授权专利号:ZL202011210964.0
[7] 徐锦承,张伟,李俊伦. 一种联合震源机制反演的地面微地震定位方法及系统,2022,授权专利号:ZL202011024185.1
[8] 徐锦承,刘礼农,张剑锋. 近地表Q偏移方法及装置,2019,授权专利号:ZL201811129861.4
[9] 田宝卿,张江杰,徐锦承. 方位各向异性介质中的保幅直接叠前时间偏移方法及装置,2019,授权专利号:ZL201810606448.6
[10] 张剑锋,徐锦承,李正伟,刘礼农. 一种三维倾角域稳相叠前时间偏移方法和系统,2016,授权专利号:ZL201410571405.0
软件著作权:
[1] 高分辨率、高信噪比保幅地震成像系统软件,登记号:2023SR1138703
[2] 地震成像域相位一致性处理软件,登记号:2023SR1121030
[3] 基于海森阵对角化表达的保幅叠前偏移成像系统软件,登记号:2023SR1132474
[4] 基于等效Q值的粘弹性叠前偏移高分辨率成像系统软件,登记号:2023SR1134522
[5] 基于有限断层破裂的地震动高频随机模拟方法软件,登记号:2021SR0993763
[6] 结合地层吸收补偿和稳相偏移的高分辨率叠前时间域成像系统软件,登记号:2017SR625120.
[7] 地震偏移道集域剩余静校正软件,登记号:2017SR624941.
[8] 三维倾角域稳相叠前时间偏移软件,登记号:2016SR342317.