2026
(20) Wang, Q.-Y., van Dinther, C., Margerin, L., and Campillo, M. (2025). Validation of a new Monte Carlo simulation-based coda wave sensitivity kernel in the heterogeneous medium. (in prep)
(19) Li, D., Xie, F., Wang, Q.-Y., Poli, P., Hibert, C., Cui, Y., Li, L., and Zhu, H. (2026). Decoupling Seasonal Seismic Velocity Changes on Slow-moving Slopes in Southwest China Using Tree Ensemble Machine Learning (Geophysical Research Letters).
2025
(18) Lu, Y., Wang, Q.-Y., Stehly, L., Bodet, L., Campillo, M., and Bokelmann, G. (2025). Mapping large-scale deep soil moisture variations using ambient seismic noise (Geophysical Research Letters).
(17) Li, D., Xie, F., Wang, Q.-Y., Milanese, E., Ren, Y., Xie, J., and Li, L. (2025). An ensemble deep learning-based acoustic emission picking model reveals migratory foreshocks on large-scale laboratory fault (Journal of Geophysical Research - Solid Earth).
(16) Paris, N., Itoh, Y., Brenguier, F., Wang, Q.-Y., Sheng, Y., Okada, T., Uchida, N., Higueret, Q., Takagi, R., Sakai, S., Hirahara, S., and Kimura, S. (2025). Coseismic crustal seismic velocity changes associated with the 2024 Mw 7.5 Noto earthquake, Japan (Earth, Planets and Space).
(15) Yu, C., Wang, Q.-Y., Ma, J., Yao, H. (2025). Subsurface evolution of the seasonally frozen ground on the northeastern Tibetan Plateau from a perspective of seismic interferometry (Geophysical Journal International).
(14) Kramer, R., Lu, Y., Wang, Q.-Y., Serafin, S., Ceppi, A., and Bokelmann, G. (2025). Using sub-daily seismic velocity changes to identify large vulnerable water reservoirs (Earth and Planetary Science Letters)
2024
(13) Peng, Z., Lei, X., Wang, Q.-Y., Wang, D., Mach, P., Yao, D., Kato, A., Obara, K., and Campillo, M. (2024). The Evolution Process between the Earthquake Swarm Beneath the Noto Peninsula, Central Japan and the 2024 M 7.5 Noto Hanto Earthquake. (Earthquake Research Advances)
(12) Wang, Q.-Y., Cui, X., Frank, W., Lu, Y., Hirose, T., and Obara, K. (2024). Untangling the environmental and tectonic drivers of the Noto (Japan) earthquake swarm (Science Advances)
2023
(11) Lu, Y., Schmid S. M., Wang, Q.-Y., and Bokelmann, G. (2023). Mapping the mantle transition zone discontinuities across the European Alpes using body waves from seismic noise correlations. (Earth and Planetary Science Letters)
(10) Wang, Q.-Y., Frank, B. W., Abercrombie, E. R., Obara, K., and Kato, A. (2023). What makes low-frequency earthquakes low frequency? (Science Advances)
(9) Hirose, T.*, Wang, Q.-Y*., Campillo, M., Nakahara, N., Nishimura, T., Margerin, L., and Larose, E. (2022). Time-lapse imaging of seismic scattering property and velocity in the northeastern Japan. (co-first author, Earth and Planetary Science Letters)
2022
(8) Xie F., Larose, E., Wang, Q.-Y., and Zhang, Y. (2022). In situ monitoring of rock slope destabilization with ambient seismic noise interferometry in southwest China. (Engineering Geology).
2021
(7) Wang, Q.-Y., Campillo, M., Brenguier, F., Lecointre, A., Takeda, T., and Yoshida, K. (2021). Seismic evidence of fluid migration in northeastern Japan after the 2011 Tohoku-Oki earthquake. (Earth and Planetary Science Letters).
(6) Nakahara, H., Wang, Q.-Y., Hobiger, M., & Hirose, T. (2020). Statistical characteristics of seismic velocity changes measured by seismic interferometry. (in review)
2020
(5) Wang, Q.-Y., & Yao, H. (2020). Monitoring of velocity changes based on seismic ambient noise: A brief review and perspective. (Earth and Planetary Physics).
(4) Poli, P., Marguin, V., Wang, Q.-Y., D’Agostino, N., & Johnson, P. (2020). Seasonal and Coseismic Velocity Variation in the Region of L’Aquila From Single Station Measurements and Implications for Crustal Rheology. (Journal of Geophysical Research - Solid Earth).
2019
(3) Wang, Q.-Y., Campillo, M., Brenguier, F., Lecointre, A., Takeda, T., & Hashima, A. (2019). Evidence of Changes of Seismic Properties in the Entire Crust Beneath Japan After the Mw 9.0, 2011 Tohoku-oki Earthquake. (Journal of Geophysical Research - Solid Earth).
2018
(2) Wang, Q.-Y. Monitoring of the mechanical properties of the crust beneath Japan from continuous data of the Hi-net network. Applied geology. Université Grenoble Alpes, 2018. English. ⟨NNT : 2018GREAU047⟩. ⟨tel-02143062⟩
2017
(1) Wang, Q.-Y., Brenguier, F., Campillo, M., Lecointre, A., Takeda, T., & Aoki, Y. (2017). Seasonal Crustal Seismic Velocity Changes Throughout Japan. (Journal of Geophysical Research - Solid Earth).