Wu‐Cheng Chi

1.1k total citations
61 papers, 818 citations indexed

About

Wu‐Cheng Chi is a scholar working on Geophysics, Environmental Chemistry and Mechanics of Materials. According to data from OpenAlex, Wu‐Cheng Chi has authored 61 papers receiving a total of 818 indexed citations (citations by other indexed papers that have themselves been cited), including 46 papers in Geophysics, 18 papers in Environmental Chemistry and 12 papers in Mechanics of Materials. Recurrent topics in Wu‐Cheng Chi's work include earthquake and tectonic studies (26 papers), Seismic Waves and Analysis (25 papers) and Seismic Imaging and Inversion Techniques (20 papers). Wu‐Cheng Chi is often cited by papers focused on earthquake and tectonic studies (26 papers), Seismic Waves and Analysis (25 papers) and Seismic Imaging and Inversion Techniques (20 papers). Wu‐Cheng Chi collaborates with scholars based in Taiwan, United States and Germany. Wu‐Cheng Chi's co-authors include Donald L. Reed, Char‐Shine Liu, Neil Lundberg, Christian Berndt, Liwen Chen, Ban‐Yuan Kuo, Douglas S. Dreger, Ingo Klaucke, Egill Hauksson and Yunshuen Wang and has published in prestigious journals such as Journal of Geophysical Research Atmospheres, Scientific Reports and Earth and Planetary Science Letters.

In The Last Decade

Wu‐Cheng Chi

57 papers receiving 796 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Wu‐Cheng Chi Taiwan 16 517 296 223 164 123 61 818
M. Desa India 17 491 0.9× 233 0.8× 214 1.0× 299 1.8× 127 1.0× 34 776
Martin Scherwath Canada 17 791 1.5× 170 0.6× 99 0.4× 60 0.4× 130 1.1× 38 1.0k
Derman Dondurur Türkiye 12 277 0.5× 185 0.6× 131 0.6× 67 0.4× 107 0.9× 40 510
Günay Çifçi Türkiye 18 405 0.8× 234 0.8× 171 0.8× 66 0.4× 178 1.4× 47 722
Ko‐ichi Nakamura Japan 12 304 0.6× 258 0.9× 71 0.3× 61 0.4× 196 1.6× 12 704
Katrin Schwalenberg Germany 15 603 1.2× 262 0.9× 144 0.6× 49 0.3× 52 0.4× 34 797
H. Villinger Germany 11 393 0.8× 115 0.4× 157 0.7× 50 0.3× 119 1.0× 18 634
W. R. Bailey Australia 15 778 1.5× 94 0.3× 264 1.2× 199 1.2× 134 1.1× 21 1.1k
S. Nagihara United States 16 377 0.7× 76 0.3× 137 0.6× 82 0.5× 98 0.8× 56 722
Mary E. MacKay United States 15 624 1.2× 374 1.3× 235 1.1× 86 0.5× 217 1.8× 17 905

Countries citing papers authored by Wu‐Cheng Chi

Since Specialization
Citations

This map shows the geographic impact of Wu‐Cheng Chi's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Wu‐Cheng Chi with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Wu‐Cheng Chi more than expected).

Fields of papers citing papers by Wu‐Cheng Chi

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Wu‐Cheng Chi. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Wu‐Cheng Chi. The network helps show where Wu‐Cheng Chi may publish in the future.

Co-authorship network of co-authors of Wu‐Cheng Chi

This figure shows the co-authorship network connecting the top 25 collaborators of Wu‐Cheng Chi. A scholar is included among the top collaborators of Wu‐Cheng Chi based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Wu‐Cheng Chi. Wu‐Cheng Chi is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Talling, Peter J., Dietrich Lange, Wu‐Cheng Chi, et al.. (2025). Ocean-bottom seismometers reveal surge dynamics in Earth’s longest-runout sediment flows. Communications Earth & Environment. 6(1). 147–147.
2.
Chi, Wu‐Cheng, et al.. (2025). Seafloor thermal structures controlled by recent slope failure and fluid flow: An example from offshore SW Taiwan. Marine and Petroleum Geology. 177. 107394–107394.
3.
Chi, Wu‐Cheng, et al.. (2025). A novel strategy for fast liquefaction detection around marine pipelines: a finite element-machine learning approach. Frontiers in Marine Science. 12. 1 indexed citations
4.
Chi, Wu‐Cheng, et al.. (2024). Application of seismically derived tilt signals to characterize groundwater flow regimes: An example from a constant-rate pumping test in Taiwan. Journal of Hydrology. 645. 132188–132188. 1 indexed citations
5.
Wang, Dong, et al.. (2024). Comparative evaluation of machine learning models for assessment of seabed liquefaction using finite element data. Frontiers in Marine Science. 11. 2 indexed citations
6.
Capdeville, Yann, et al.. (2023). Strongly Scattering Medium Along Slow Earthquake Fault Zones Based on New Observations of Short‐Duration Tremors. Geophysical Research Letters. 50(8). 6 indexed citations
7.
Chi, Wu‐Cheng, et al.. (2023). Transient ground bulge derived from a dense broadband seismic array during an aquifer step-drawdown pumping test. Journal of Hydrology. 628. 130595–130595. 1 indexed citations
8.
Sarkar, Sudipta, Christian Berndt, Christoph Böttner, et al.. (2022). Thermal State of the Guaymas Basin Derived From Gas Hydrate Bottom Simulating Reflections and Heat Flow Measurements. Journal of Geophysical Research Solid Earth. 127(8). 5 indexed citations
9.
10.
Crutchley, Gareth, Wu‐Cheng Chi, Christian Berndt, et al.. (2022). Episodic Venting of a Submarine Gas Seep on Geological Time Scales: Formosa Ridge, Northern South China Sea. Journal of Geophysical Research Solid Earth. 127(9). 10 indexed citations
11.
Chi, Wu‐Cheng, et al.. (2021). A Rapid Numerical Method to Constrain 2D Focused Fluid Flow Rates Along Convergent Margins Using Dense BSR‐Based Temperature Field Data. Journal of Geophysical Research Solid Earth. 126(7). 3 indexed citations
12.
Chi, Wu‐Cheng, et al.. (2020). A Shallow Seabed Dynamic Gas Hydrate System off SW Taiwan: Results From 3‐D Seismic, Thermal, and Fluid Migration Analyses. Journal of Geophysical Research Solid Earth. 125(11). 15 indexed citations
13.
14.
Chen, Liwen, et al.. (2019). Seismic analysis of the gas hydrate system at Pointer Ridge offshore SW Taiwan. Marine and Petroleum Geology. 105. 158–167. 13 indexed citations
15.
Liu, Char‐Shine, et al.. (2017). Westward advance of the deformation front and evolution of submarine canyons offshore of southwestern Taiwan. Journal of Asian Earth Sciences. 149. 6–19. 15 indexed citations
16.
Chi, Wu‐Cheng, et al.. (2011). Moment Tensor Inversions using Strong Motion Waveforms of the Taiwan TSMIP Data, 1993-2009. AGU Fall Meeting Abstracts. 2011. 1 indexed citations
17.
Chi, Wu‐Cheng, et al.. (2011). Inversion of Ground Motion Data from a Seismometer Array for Rotation using a Modification of Jeager's Method. AGU Fall Meeting Abstracts. 2011. 1 indexed citations
18.
Wang, Chi‐Yuen, et al.. (2004). Three-dimensional crustal structure in central Taiwan from gravity inversion with a parallel genetic algorithm. Geophysics. 69(4). 917–924. 56 indexed citations
19.
Chi, Wu‐Cheng. (2003). From subduction to collision: Results from seismic profiling, gravity modeling, and earthquake finite fault inversions in Taiwan region. PhDT. 2 indexed citations
20.
Hauksson, Egill, Wu‐Cheng Chi, & Peter M. Shearer. (2003). Comprehensive Waveform Cross-correlation of Southern California Seismograms: Part 1. Refined Hypocenters Obtained Using the Double-difference Method and Tectonic Implications. AGUFM. 2003. 10 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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