--- GA: G-44K4TH870N --- ## 洪淑蕙 Shu-huei Hung `Google Scholar` https://scholar.google.com.tw/citations?user=18J-r7YAAAAJ&hl=zh-TW&oi=sra `Website` https://sites.google.com/view/geophysics-seismolab-ntu/home `NTU-Geo` http://www.gl.ntu.edu.tw/index.php/about-the-department/teacher/professors/item/58-professor-shu-huei-hung 1998年在美國布朗大學取得地質科學博士後，便在美國普林斯頓大學擔任博士後研究員直到2001年，並於2001年2月回到臺大地質系任教至今。 在近30年的學術生涯中，我熱衷於探索地球內部的速度構造、衰減（attenuation）構造和各相異性（anisotropy）構造。資料主要來源於地震波及環境噪訊，透過遠震體波到時量測、遠震接收函數、表面波相速度頻散曲線、等方法 而我的研究區域包山包海，包含太平洋海床、台灣、加拿大西南邊、紐西蘭、加勒比海、冰島、芬諾斯勘迪亞地盾、南加州、西藏、琉球俯衝帶、華北、亞速爾群島熱點、東太平洋隆起等區域。 My research primarly lies in the field of Geophysics, with a particular focus on seismic structure and source studies. The work encompasses a range of topics including the exploraiton of seismic velocity structures, attenuation, and anisotropy of the earth's interior using seismic waves and ambient noise and tomograpy/imaging as probes and tools as well as earthquake source properties. The geographical scope and scale of my research are diverse, covering globally and regionally such as the Pacific Seafloor, Taiwan, SW Canada, New Zealand, the Caribbean, Iceland, the Fennoscandian Shield, Southern California, Tibet, the Ryukyu subduction zone, North China, the Azores hotspot, and the East Pacific Rise. This demonstrates a global span of study areas, indicating my extensive involvement in understanding seismic activities and structures in various tectonic settings across the world. ### Journal Article `Body-Wave Finite-Frequency Travel-Time Tomography` * **Oldest-1**: Kang, H., Kim, Y., Hung, S., Lin, P. P., Isse, T., Kawakatsu, H., Lee, S., Utada, H., Takeuchi, N., Shiobara, H., Sugioka, H., & Kim, S. (2023). Seismic velocity structure of upper mantle beneath the oldest pacific seafloor: Insights from finite‐frequency tomography. Geochemistry, Geophysics, Geosystems, 24(9). https://doi.org/10.1029/2022gc010833 * **Western Canada**: Chen, Y., Gu, Y. J., & Hung, S.-H. (2017). Finite-frequency p-wave tomography of the western canada sedimentary basin: Implications for the lithospheric evolution in Western Laurentia. Tectonophysics, 698, 79–90. https://doi.org/10.1016/j.tecto.2017.01.006 * **Southwestern Fennoscandian Shield**: Kolstrup, M. L., Hung, S.-H., & Maupin, V. (2015). Multiscale, finite-frequency P and s tomography of the upper mantle in the southwestern Fennoscandian Shield. Geophysical Journal International, 202(1), 190–218. https://doi.org/10.1093/gji/ggv130 * **Tibet**: Hung, S.-H., Chen, W.-P., & Chiao, L.-Y. (2011). A data-adaptive, multiscale approach of finite-frequency, traveltime tomography with special reference to *P* and *S* wave data from Central Tibet. Journal of Geophysical Research, 116(B6). https://doi.org/10.1029/2010jb008190 `Body-Wave + Surface-Wave Tomography` * **China**: Obrebski, M., Allen, R. M., Zhang, F., Pan, J., Wu, Q., & Hung, S. (2012). Shear wave tomography of China using joint inversion of body and surface wave constraints. Journal of Geophysical Research: Solid Earth, 117(B1). https://doi.org/10.1029/2011jb008349 `Anisotropy Tomography` * **Southern California**: Lin, Y., Zhao, L., & Hung, S. (2014). Full‐Wave Multiscale Anisotropy Tomography in Southern California. Geophysical Research Letters, 41(24), 8809–8817. https://doi.org/10.1002/2014gl061855 `Fréchet kernels for finite-frequency traveltimes I & II` * F. A. Dahlen, S.-H. Hung, Guust Nolet, Fréchet kernels for finite-frequency traveltimes—I. Theory, Geophysical Journal International, Volume 141, Issue 1, April 2000, Pages 157–174, https://doi.org/10.1046/j.1365-246X.2000.00070.x * S.-H. Hung, F.A. Dahlen, Guust Nolet, Fréchet kernels for finite-frequency traveltimeséII. Examples, Geophysical Journal International, Volume 141, Issue 1, April 2000, Pages 175–203, https://doi.org/10.1046/j.1365-246X.2000.00072.x ### 研究地圖