國立中央大學 LOGO-2
Wang, Chien-Ying

王乾盈 教授
Pf. Wang, Chien-Ying
E-mail:wangcy@cc.ncu.edu.tw
Tel:+886-3-4262305
著作 | 研究 | 教學

個人簡介:

王乾盈教授為美國聖路易大學地球及大氣科學系博士,專長於震測探勘學與觀測地震學,於2018年退休後,獲國立中央大學地球科學系榮譽教授頭銜。

曾擔任中央大學地球科學院院長。主持過國家大型研究計畫,包含:車籠埔斷層鑽探研究計畫(TCDP)、台灣大地動力研究計畫(TAIGER)、跨海峽構造研究計畫(ATSEE)。近幾年致力於台灣地熱構造研究與二氧化碳封存構造研究。為台灣綠能發展不遺餘力,積極推動台灣能源永續發展研究工作。

專注研究工作之於,也投入地球科學教育推廣,舉辦高中高中地球科學講習提升高中教師地科專業,培訓過台灣地震教育園區首批導覽員,編撰高中地球科學教材。

專長:

專長:震測探勘學、觀測地震學、震波傳遞。

 

現職:

2018~迄今 國立中央大學 地球科學系 榮譽教授

經歷:

2010~2013 國立中央大學 地球科學院 院長
2007~2018 國立中央大學 地球科學系 特聘教授
1998~2000 國立中央大學 圖書館 館長
1992~1997 國立中央大學 地球科學系 系主任
1989~2018 國立中央大學 地球科學系 教授
1985~1989 國立中央大學 地球物理研究所 副教授
1983~1985 美國聖路易大學 地球及大氣科學系 博士後研究
1981~1983 美國休士頓格蘭地球物理公司 高級地球物理師

學歷:

1977~1981 美國密蘇里州聖路易大學 地球及大氣科學系 博士
1975~1977 國立臺灣大學 海洋研究所 碩士
1969~1973 國立中央大學 物理系球物理組 學士

服務:

國科會地球科學推動中心 主任
地球物理學門審議 召集人
中大學術基金會 秘書長 (2010~2018)
中央氣象局 技術顧問
中興工程活動斷層調查 顧問
台電核廢料場址調查 顧問
中華民國地球科學學會 理監事、秘書長、理監事召集人
中華民國地球物理學會 監事、理事長(第六屆)
中華民國地質學會 理事(第74屆)
地球科學集刊(TAO) 總編輯 (2001~2003)
高中基礎地球科學(全華版) 主編
國際地球科學奧林匹亞競賽(地球物理類) 培訓導師
大考中心地科學測 顧問

獲獎:

1990年 國科會 傑出研究獎
2004年 國科會自然處 傑出獎
2005年 國立中央大學 研究傑出獎
2006年 地球科學學會 2003-2004 Best Paper Award
2007年 地球科學學會 Most Cited Article Award
2008年 地球科學學會 Most Cited Article Award (1998-2007)
2009年 中國石油學會 石油地質首獎
2011年 中華民國地球物理學會 貢獻獎
2022年 中華民國地質學會 貢獻獎

著作目錄

Ma, K. F. *, H. Tanaka, S.R. Sung, C.Y. Wang, J.H. Hung, Y.B.Tsai, J. Mori, Y.F. Song, E.C. Yeh, W. Soh, H. Sone, L.W. Kuo, H.Y. Wu
Slip zone and energetics of a large earthquake from the Taiwan Chelungpu-fault Drilling Project
NATURE, Vol. 444, doi:10.1038/nature05253., 2006. (SCI)

Hirono, T., W. Lin, E.C. Yeh, W. Soh, Y. Hashimoto, H. Sone, O. Matsubayashi, K. Aoike, H. Ito, M. Kinoshita, M. Murayama, S.-R. Song, K.F. Ma, J.H. Hung, C.Y. Wang, Y.B. Tsai,
High magnetic susceptibility of fault gouge within Taiwan Chelungpu fault: nondestructivecontinuous measurements of physical and chemical properties in fault rocks recovered from HoleB, TCDP
Geoph. Res. Letter, Vol. 33, L15303, doi:10.1029/2006GL026133, 2006 (SCI)

Tanaka, H. *, W. M. Chen, C. Y. Wang, K. F. Ma, N. Urata, J. Mori, M. Ando
Frictional heat from faulting of the 1999 Chi-Chi, Taiwan earthquake
Geoph. Res. Letter, Vol. 33, L16316, doi:10.1029/2006GL026673, 2006 (SCI)

Hirono, T., M. Ikehara, K. Otsuki, T. Mishima, M. Sakaguchi, W. Soh, M. Omori, W.R. Lin, E.C. Yeh, W. Tanikawa, C.Y. Wang
Evidence of frictional melting from disk-shaped black material, discovered within the Taiwan Chelungpu fault system
Geoph. Res. Letter, Vol. 33, doi:10.1029/2006GL19311, 2006 (SCI)

Wang, C. Y.*, C.L. Lee, M.L. Ger, M.S. Wu
Investigating the TCDP Drill Site Using Deep and Shallow Reflection Seismics
Terr. Atmos. Ocean. Sci., 18, 129-141, 2007 (SCI)

Simoes, M., J. Philippe Avouac, Y.G. Chen, A.K. Singhvi, C.Y. Wang, M. Jaiswal, Y.C. Chan, S. Bernard
Kinematic analysis of the Pakuashan fault-tip fold, west-central Taiwan: shortening rate and age of folding inception
J. Geoph. Res. – Solid Earth., 112 (B3): Art. No. B03S14 FEB 13, 2007 (SCI)

Huang, M. W., J.H. Wang, K.F. Ma, C.Y. Wang, J.H. Hung, K.L. Wen
Frequency-dependent site amplifications with f >= 0.0 1 Hz evaluated from velocity and density models in central Taiwan
Bull. Seis. Soc. Am. Vol. 97 (2), 624-637, 2007 (SCI)

Lin , W., E.C. Yeh, H. Ito, J.H. Hung, T. Hirono, W. Soh, K.F. Ma, M. Kinoshita1, C.Y. Wang, S.R. Song,
Current stress state and principal stress rotations in the vicinity of the Chelungpu fault induced by the 1999 Chi-Chi, Taiwan, earthquake
Geoph. Res. Letter, Vol. 34, doi:10.1029/2007GL030515, 2007 (SCI)

Song, S.R., L.W. Kuo, E.C. Yeh, C. Y. Wang, J.H. Hung, K.F. Ma
Characteristics of the lithology, fault-related rocks and fault zone structures in TCDP Hole-A
Terr. Atmos. Ocean. Sci., 18, 243-269, 2007 (SCI)

Sone, H., E.C. Yeh, T. Nakaya, J.H. Hung, K.F. Ma, C.Y. Wang, S.R. Song, T. Shimamoto
Mesoscopic structural observations of cores from the Chelungpu fault system, Taiwan Chelungpu-fault drilling project hole-A, Taiwan
Terr. Atmos. Ocean. Sci., 18, 359-377, 2007 (SCI)

Song, S. R., C. Y. Wang, J. H. Hung, and K. F. Ma
Preface to the special issue on Taiwan Chelungpu-fault Drilling Project (TCDP): Site Characteristics and on-site measurements.
Terr. Atmos. Ocean. Sci., 18, I-VI. 2007. (SCI)

Yeh, E.C., H. Sone, T. Nakaya, K.H. Ian, S.R. Song, J.H. Hung, W. Lin, T. Hirono, C.Y. Wang, K.F. Ma, W. Soh M. Kinoshita
Core description and characteristics of fault zones from Hole-A of the Taiwan Chunlungpu-fault drilling project
Terr. Atmos. Ocean. Sci., 18, 327-357, 2007 (SCI)

Lin W., E.-C. Yeh, H. Ito, T. Hirono, W. Soh, C.-Y. Wang, K.-F. Ma, J.-H. Hung, and S.-R. Song
Preliminary Results of Stress Measurement Using Drill Cores of TCDP Hole-A: an Application of Anelastic Strain Recovery Method to Three-Dimensional In-Situ Stress Determination
Terr. Atmos. Ocean. Sci., Vol. 18, No. 2, 379-393, 2007. (SCI)

Chen, W. M*, Chung-bin Lu, Hidemi Tanaka, Hui-jen Huang, Chy-yu Lee, and Chien-ying Wang.
Fluid infiltration associated with seismic faulting: examining chemical and miineralogical compositions of the fault rocks from of the active Chelungpu fault
Tectonophysics, 443(3-4), 243-254, 15 October 2007. (SCI)

Hung, J.H., K.F. Ma, C.Y. Wang, S.R. Song, H. Ito, W. Lin, E.C. Yeh,
Subsurface structure, fault zone, characteristics, and stress state in scientific drill holes of Taiwan Chelungpu fault drilling project.
Scientific Drilling Special Issue, No.1, 55-58, doi:10.2204 /iodp.sd.s01.27. , 2007

Lin W., O. Matsubayashi, E. C. Yeh, T. Hirono, W. Tanikawa, W. Soh, C. Y. Wang, S. R. Song, M. Murayama,
Profiles of volumetric water content in fault zones retrieved from hole B of the Taiwan Chelungpu-fault Drilling Project (TCDP)
Geophys. Res. Lett., 35, L01305, doi:10.1029/2007GL032158, 11 January 2008. (SCI)

Yabe, Y., S.R. Song, C.Y. Wang
In-situ stress at the northern portion of the Chelungpu fault, Taiwan, estimated on boring cores recovered from a 2-km-deep hole of TCDP
Earth Planets and Space, Vol. 60, 8, 809-819, 2008. (SCI)

Hung, J.H., K.F. Ma, C.Y. Wang, H. Ito, W. R. Lin, E.C. Yeh,
Subsurface structure, physical properties, fault-zone characteristics and stress state in scientific drill holes of Taiwan Chelungpu Fault Drilling Project
Tectonophysics, Vol. 466, 3-4, 307-321, 10 March 2009. (SCI)

Wang, C. Y.*, Y. H. Lee and R. P. Chang
Reflection Static Correction without Picking First Arrival Times
Terr. Atmos. Ocean. Sci., 20, No. 6,769-778, Dec 2009.(SCI)

Chang, J.P., Huang, R.D., Wang, C.Y., Yu G.K., Chang, W.Y., and Lin, T.W. (2010) Analysis of rupture directivity for the 2004 Sumatra Earthquake from the Rayleigh-wave phase velocity, Terr. Atmos. Ocean. Sci., Vol. 21, 243-251, doi: 10.3319/TAO.2009.03.2.01(T) . (SCI: 0.643)

Chang, P.Y., Chen, C.C., Chang, S.K., Wang, T.B., Wang, C.Y. and Hsu, S.K. (2012) An investigation into the debris flow induced by Typhoon Morakotin the Siaolin Area, Southern Taiwan, using the electrical resistivityimaging method, Geophys. J. Int., Vol. 188, 1012–1024 doi: 10.1111/j.1365-246X.2011.05310.x (SCI: 2.411)

Kuo-Chen H., Wu F. T, Jenkins D. M., Mechie J., Roecker W., Wang C. Y., Huang B. S. Seismic evidence for the a-b quartz transition beneath Taiwanfrom Vp/Vs tomography . Geoph. Res. Letter .

Chen P. F., Bina C. R., Kuo-Chen H., Wu F. T., Wang C. Y., Huang, B. S., Chen C. H., Liang W. T. Slab-induced waveform effects as revealed by the TAIGER seismic array: Evidence of slab beneath central Taiwan . Physics of the Earth and Planetary Interiors

  • Cai, H. T., Kuo-Chen, H., Doo, W. B., Chang, C. P., Jin, X., Kuo, Y. W., Wang, C. Y., … & Chang, W. Y. (2021). Geophysical Evidence for the Ancient Suture Within the Cathaysia Block. In Earthquake Geology and Tectonophysics around Eastern Tibet and Taiwan (pp. 127-140). Springer, Singapore.
  • Chiang, C. W., Yang, Z. X., Chen, C. C., Yeh, E. C., Chen, C. S., & Wang, C. Y. (2021). Potential geothermal structure inferred from the electrical resistivity and seismic reflection models in the western Ilan Plain, NE Taiwan. Geothermics, 94, 102124.
  • Lai, S. Y., Kuo-Chen, H., Wang, C. Y., & Wu, M. S. (2019, January). Subsurface Structure Investigation of Southern Longitudinal Valley, Taiwan from Seismic Reflection Data. In Geophysical Research Abstracts (Vol. 21).
  • Su, P. L., Chen, P. F., & Wang, C. Y. (2019). High‐Resolution 3‐DP Wave Velocity Structures Under NE Taiwan and Their Tectonic Implications. Journal of Geophysical Research: Solid Earth, 124(11), 11601-11614.
  • Shih, R. C., Wang, C. Y., Chen, W. S., Wang, Y. K., Kuo, H. Y., Yen, T. C., … & Chang, Y. F. (2018). Seismic reflection profiling of the first deep geothermal field in Taiwan. Geothermics, 74, 255-272.
  • Wang, C. Y., Shih, R. C., Chung, C. T., Huang, M. Z., & Kuo, H. Y. (2017, April). Exploring geothermal structures in the Ilan Plain, Taiwan. In EGU General Assembly Conference Abstracts (p. 1870).
  • Shie, Y. M., Kuo-Chen, H., Wang, C. Y., Wu, M. S., & Wu, F. T. (2017, April). Seismic reflection survey in the northern part of the Longitudinal Valley, the suture zone, in eastern Taiwan. In EGU General Assembly Conference Abstracts (p. 5841).
  • Wang, C. Y., Chung, C. T., Kuo, H. Y., Wu, M. S., & Kuo-Chen, H. (2017, April). High-resolution reflection seismic survey at a CCS site, Taiwan. In EGU General Assembly Conference Abstracts (p. 1871).
  • Kuo, Y. W., Wang, C. Y., Kuo-Chen, H., Jin, X., Cai, H. T., Lin, J. Y., … & Brown, L. (2016). Crustal structures from the Wuyi-Yunkai orogen to the Taiwan orogen: The onshore-offshore wide-angle seismic experiments of the TAIGER and ATSEE projects. Tectonophysics, 692, 164-180.
  • Chen, K. X., Kuo‐Chen, H., Brown, D., Li, Q., Ye, Z., Liang, W. T., …, Wang, C. Y. & Yao, H. (2016). Three‐dimensional ambient noise tomography across the Taiwan Strait: The structure of a magma‐poor rifted margin. Tectonics, 35(8), 1782-1792.
  • Wu, F. T., Ross, Z. E., Okaya, D., Ben-Zion, Y., Wang, C. Y., Kuo-Chen, H., & Liang, W. T. (2016). Dense network, intense seismicity and tectonics of Taiwan. Tectonophysics, 692, 152-163.
  • Chang, Y. C., Shih, R. C., Wang, C. Y., Kuo, H. Y., & Chen, W. S. (2016, April). Faults dominant structure?-Seismic images of the subsurface structure for the Ilan geothermal field in Taiwan. In EGU General Assembly Conference Abstracts (pp. EPSC2016-11188).
  • Kuo-Chen, H., Chen, K. X., Brown, D., Li, Q., Ye, Z., Liang, W. T., …, Wang, C. Y. & Yao, H. (2016, April). 3D ambient noise tomography across the Taiwan Strait: the structure of a magma-poor rifted margin. In EGU General Assembly Conference Abstracts (pp. EPSC2016-1912).
  • Chung, C. T., Wang, C. Y., & Shih, R. C. (2016, April). Exploring geothermal structures in the Ilan Plain, Taiwan. In EGU General Assembly Conference Abstracts (pp. EPSC2016-1323).
  • Cai, H. T., Kuo-Chen, H., Jin, X., Wang, C. Y., Huang, B. S., & Yen, H. Y. (2015). A three-dimensional Vp, Vs, and Vp/Vs crustal structure in Fujian, Southeast China, from active-and passive-source experiments. Journal of Asian Earth Sciences, 111, 517-527.
  • Shih*, R. C., & Wang, C. Y. (2015, July). Seismic Reflection profiling of the First Geothermal Field in Taiwan. In Near-Surface Asia Pacific Conference, Waikoloa, Hawaii, 7-10 July 2015 (pp. 165-168). Society of Exploration Geophysicists, Australian Society of Exploration Geophysicists, Chinese Geophysical Society, Korean Society of Earth and Exploration Geophysicists, and Society of Exploration Geophysicists of Japan.
  • Kuochen, H., Kuo, N. Y. W., Wang, C. Y., Jin, X., Cai, H. T., Lin, J. Y., … & Brown, L. D. (2015, December). The crustal structures from Wuyi-Yunkai orogen to Taiwan orogen: the onshore-offshore wide-angle seismic experiment of TAIGER and ATSEE projects. In AGU Fall Meeting Abstracts (Vol. 2015, pp. T43A-2977).
  • Yen, T. C., Shih, R. C., & Wang, C. Y. (2015, April). Subsurface structure of the geothermal well site in Ilan, Taiwan by using the seismic exploration method. In EGU General Assembly Conference Abstracts (p. 8061).
  • Min-Hung, S., Huang, B. S., Zhu, L., Yen, H. Y., Tao-Ming, C., Win-Gee, H., & Chien-Ying, W. (2014). Fault orientation determination for the 4 March 2008 Taoyuan earthquake from dense near-source seismic observations. TAO: Terrestrial, Atmospheric and Oceanic Sciences, 25(5), 637.
  • Wang, Y. K., Shih, R. C., & Wang, C. Y. (2014, May). Seismic exploration of the subsurface structure of a geothermal well site in Ilan, Northern Taiwan. In EGU General Assembly Conference Abstracts (p. 2662).
  • Kuo-Chen, H., Środa, P., Wu, F., Chien-Ying, W., & Yao-Wen, K. (2013). Seismic anisotropy of the upper crust in the mountain ranges of Taiwan from the TAIGER explosion experiment. TAO: Terrestrial, Atmospheric and Oceanic Sciences, 24(6), 963.
  • Huang, B. S., Wang, C. Y., Okaya, D., Lee, S. J., Lai, Y. C., Wu, F. T., … & Huang, W. G. (2013). Multiple Diving Waves and Steep Velocity Gradients in the Western Taiwan Coastal Plain: An Investigation Based on the TAIGER ExperimentMultiple Diving Waves and Steep Velocity Gradients in Western Taiwan Coastal Plain. Bulletin of the Seismological Society of America, 103(2A), 925-935.
  • Chen, K. P., Wang, C. Y., Tsai, Y. B., & Chang, W. Y. (2013). A seismic structure study in the Kaoping Area, southwestern Taiwan. Bulletin of the Seismological Society of America, 103(1), 306-316.
  • Hao, K. C., Sroda, P., Wu, F. T., Wang, C. Y., & Kuo, Y. W. (2013). Seismic Anisotropy of the Upper Crust in the Mountain Ranges of Taiwan from the TAIGER Explosion Experiment.
  • Yang, J., Kuo-Chen, H., & Wang, C. Y. (2013, April). A CCS site survey in Taiwan. In EGU General Assembly Conference Abstracts (pp. EGU2013-3046).
  • Kuo-Chen, H., Środa, P., Wu, F., Wang, C. Y., Okaya, D., & Christensen, N. (2013, April). Seismic anisotropy of the crust in the Central Range of Taiwan from the 2008 TAIGER explosion experiment. In EGU General Assembly Conference Abstracts (pp. EGU2013-8550).
  • Kuo-Chen, H., Środa, P., Wu, F., Wang, C. Y., & Kuo, Y. W. (2013). Seismic anisotropy of the upper crust in the mountain ranges of Taiwan from.
  • Chou, Y. M., Song, S. R., Aubourg, C., Lee, T. Q., Boullier, A. M., Song, Y. F., … & Wang, C. Y. (2012). An earthquake slip zone is a magnetic recorder. Geology, 40(6), 551-554.
  • Chang, J. P., Hwang, R. D., Wang, C. Y., Yu, G. K., Chang, W. Y., & Lin, T. W. (2010). Analysis of Rupture Directivity for the 2004 Sumatra Earthquake from the Rayleigh-Wave Phase Velocity. Terrestrial, Atmospheric & Oceanic Sciences, 21(2).
  • Hirono, T., Lin, W., Yeh, E. C., Soh, W., Murayama, M., Wang, C. Y., & Song, S. R. (2009). Porosity profile within the Taiwan Chelungpu Fault, reconstructed from X-ray computed tomography images. JAMSTEC Report of Research and Development, 9(2), 2_15-2_22.
  • Chien-Ying, W., Yi-Hen, L., & Jo-Pan, C. (2009). Refraction Static Correction without Picking First Arrival Times. TAO: Terrestrial, Atmospheric and Oceanic Sciences, 20(6), 7.
  • Yabe, Y., Song, S. R., & Wang, C. Y. (2008). In-situ stress at the northern portion of the Chelungpu fault, Taiwan, estimated on boring cores recovered from a 2-km-deep hole of TCDP. Earth, planets and space, 60(8), 809-819.
  • Lin, W., Matsubayashi, O., Yeh, E. C., Hirono, T., Tanikawa, W., Soh, Wang, C. Y., … & Murayama, M. (2008). Profiles of volumetric water content in fault zones retrieved from hole B of the Taiwan Chelungpu‐Fault Drilling Project (TCDP). Geophysical Research Letters, 35(1).
  • Lin, W., Yeh, E. C., Ito, H., Hung, J. H., Hirono, T., Soh, W., Ma, K. F., Kinoshita, M., Wang, C. Y. & Song, S. R. (2007). Current stress state and principal stress rotations in the vicinity of the Chelungpu fault induced by the 1999 Chi‐Chi, Taiwan, earthquake. Geophysical Research Letters, 34(16).
  • Yeh, E. C., Sone, H., Nakaya, T., Ka-Hao, I., Sheng-Rong, S., Hung, J. H., Lin, W., Hirono, T., Wang, C. Y., & Kinoshita, M. (2007). Core description and characteristics of fault zones from Hole-A of the Taiwan Chelungpu-Fault Drilling Project. TAO: Terrestrial, Atmospheric and Oceanic Sciences, 18(2), 327.
  • Sheng-Rong, S., Li-Wei, K., Yeh, E. C., Chien-Ying, W., Hung, J. H., & Kuo-Fong, M. (2007). Characteristics of the lithology, fault-related rocks and fault zone structures in TCDP Hole-A. TAO: Terrestrial, Atmospheric and Oceanic Sciences, 18(2), 243.
  • Lin, W., Yeh, E. C., Ito, H., Hirono, T., Soh, W., Wang, C. Y., … & Song, S. R. (2007). Preliminary results of stress measurement using drill cores of TCDP Hole-A: an application of anelastic strain recovery method to three-dimensional in-situ stress determination. Terrestrial Atmospheric and Oceanic Sciences, 18(2), 379.
  • Hung, J. J., Wang, C. Y., Huang, M. H., Huang, B. S., Hsu, W. H., & Wu, Y. C. (2007). Prognostic factors in resected stage I non–small cell lung cancer with a diameter of 3 cm or less: visceral pleural invasion did not influence overall and disease-free survival. The Journal of Thoracic and Cardiovascular Surgery, 134(3), 638-643.
  • Hirono, T., Yeh, E. C., Lin, W., Sone, H., Mishima, T., Soh, W., …, Wang, C. Y., …, & Sugawara, T. (2007). Nondestructive continuous physical property measurements of core samples recovered from hole B, Taiwan Chelungpu‐Fault Drilling Project. Journal of Geophysical Research: Solid Earth, 112(B7).
  • Sone, H., Yeh, E. C., Nakaya, T., Ji-Hao, H., Kuo-Fong, M., Chien-Ying, W., … & Shimamoto, T. (2007). Mesoscopic structural observations of cores from the Chelungpu fault system, Taiwan Chelungpu-fault Drilling Project Hole-A, Taiwan. TAO: Terrestrial, Atmospheric and Oceanic Sciences, 18(2), 359.
  • Sheng-Rong, S., Chien-Ying, W., Hung, J. H., & Kuo-Fong, M. (2007). Preface to the special issue on Taiwan Chelungpu-fault Drilling Project (TCDP): Site characteristics and on-site measurements. TAO: Terrestrial, Atmospheric and Oceanic Sciences, 18(2).
  • Wang, P. L., Lin, L. H., Yu, H. T., …, Lin, W., Wang, C. Y. Cultivation-based characterization of microbial communities associated with deep sedimentary rocks from Taiwan Chelungpu Drilling Project cores. Terrestrial, 2007, 2.
  • Chien-Ying, W., Chien-Li, L., Wu, M. C., & Ger, M. L. (2007). Investigating the TCDP drill site using deep and shallow reflection seismics. TAO: Terrestrial, Atmospheric and Oceanic Sciences, 18(2), 129.
  • Hirono, T., Tsunogai, U., Maegawa, K., Toki, T., Tanimizu, M., Soh, W., … & Wang, C. Y. (2007). Chemical and isotopic characteristics of interstitial fluids within the Taiwan Chelungpu fault. Geochemical Journal, 41(2), 97-102.
  • Tanaka, H., Chester, F. M., Mori, J. J., & Wang, C. Y. (2007). Drilling into fault zones. Tectonophysics, 443(3-4), 123-125.
  • Hung, J. H., Hirono, T., Soh, W., Ma, K. F., Kinoshita, M., Wang, C. Y., & Song, S. R. (2007). Solid Earth-L16307-Current stress state and principal stress rotations in the vicinity of the Chelungpu fault induced by the 1999 Chi-Chi, Taiwan, earthquake (DOI 10.1029/2007GL030515). Geophysical Research Letters, 34(16).
  • Simoes, M., Avouac, J. P., Chen, Y. G., Singhvi, A. K., Wang, C. Y., Jaiswal, M., … & Bernard, S. (2007). Active Fault-Related Folding: Structural Evolution, Geomorphologic Expression, Paleoseismology, and Seismic Hazards-B03S14 Kinematic analysis of the Pakuashan fault tip fold, west. Journal of Geophysical Research-Part B-Solid Earth, 112(3).
  • Ma, K. F., Tanaka, H., Song, S. R., Wang, C. Y., Hung, J. H., Tsai, Y. B., … & Wu, H. Y. (2006). Slip zone and energetics of a large earthquake from the Taiwan Chelungpu-fault Drilling Project. Nature, 444(7118), 473-476.
  • Hirono, T., Lin, W., Yeh, E. C., Soh, W., Hashimoto, Y., Sone, H., …, Wang, C. Y. & Tsai, Y. B. (2006). High magnetic susceptibility of fault gouge within Taiwan Chelungpu fault: Nondestructive continuous measurements of physical and chemical properties in fault rocks recovered from Hole B, TCDP. Geophysical Research Letters, 33(15).
  • Hirono, T., Ikehara, M., Otsuki, K., Mishima, T., Sakaguchi, M., Soh, W., … & Wang, C. Y. (2006). Evidence of frictional melting from disk‐shaped black material, discovered within the Taiwan Chelungpu fault system. Geophysical Research Letters, 33(19).
  • Hirono, T. L. W., Yeh, E. C. S. W., Hashimoto, Y. S. H., Matsubayashi, O. A. K., Ito, H. K. M., Murayama, M. S. S. R., … & Wang, C. Y., T. Y. B. (2006). Solid Earth-L15303-High magnetic susceptibility of fault gouge within Taiwan Chelungpu fault: Nondestructive continuous measurements of physical and chemical properties in fault rocks recovered. Geophysical Research Letters, 33(15).
  • 林為人, 廣野哲朗, 葉恩肇, 曽根大貴, 徐垣, & 王乾盈. (2006). 62. ボーリング調査による台湾チェルンプ断層帯の構造解明 (ボーリング・孔内試験, 口頭発表). 研究発表会講演論文集, 18, 223-224.
  • Wang, C. Y., Lee, Y. H., & Hu, Y. Y. (2005). Re‐evaluating an active fault in a major computer‐manufacturing area in northern Taiwan using ‘1 sec’shallow reflection seismics. Geophysical research letters, 32(8).
  • Chien-Ying, W., Han-Shui, H., Yu-Chung, W., Min-Hsiung, H., & Wen-Hu, H. (2005). Intramural lipoma of the esophagus. J Chin Med Assoc, 68(5).
  • Hung, J. H., Wu, Y. H., Yeh, E. C., Ma, K. F., Wang, C. Y., & Song, S. R. (2005). Characteristics of fault zones from cores and geophysical logs in the Wells of Taiwan Chelungpu Fault Drilling Project, West-central Taiwan. In Abstract of Annual Meeting of Geological Society Loacted in Taipei (Vol. 26).
  • Wang, C. Y., Lee, Y. H., & Hu, Y. Y. (2005). Solid Earth-L08313-Re-evaluating an active fault in a major computer-manufacturing area in northern Taiwan using’1 sec’shallow reflection seismics (DOI 10.1029/2005GLO22344). Geophysical Research Letters, 32(8).
  • Wang, C. Y., Lee, Y. H., Ger, M. L., & Chen, Y. L. (2004). Investigating subsurface structures and P-and S-wave velocities in the Taipei basin. Terrestrial Atmospheric and Oceanic Sciences, 15, 609-628.
  • Wang, C. Y., Li, C. L., & Lee, H. C. (2004). Constructing subsurface structures of the Chelungpu fault to investigate mechanisms leading to abnormally large ruptures during the 1999 Chi‐Chi earthquake, Taiwan. Geophysical Research Letters, 31(2).
  • Okaya, A., Wu, F. T., Wang, C. Y., Lee, C. S., & Liu, C. S. A lithospheric profile across northern Taiwan: From arc-continent collision to extension 2.
  • Chang, J. P., Hwang, R. D., Wang, C. Y., Yu, G. K., Chang, W. Y., & Lin, T. W. Analysis of Rupture Directivity for the 2004 Sumatra Earthquake from the.
  • Wang, C. Y., Li, C. L., & Lee, H. C. (2004). Solid Earth-L 02608. Constructing subsurface structures of the Chelungpu fault to investigate mechanisms leading to abnormally large ruptures during the 1999 Chi-Chi earthquake, Taiwan (DOI. Geophysical Research Letters, 31(2).
  • Tanaka, H., Wang, C. Y., Chen, W. M., Sakaguchi, A., Ujiie, K., Ito, H., & Ando, M. (2002). Initial science report of shallow drilling penetrating into the Chelungpu fault zone, Taiwan. Terrestrial Atmospheric and Oceanic Sciences, 13(3), 227-252.
  • Wang, C. Y. (2002). Detection of a recent earthquake fault by the shallow reflection seismic method. Geophysics, 67(5), 1465-1473.
  • Wang, C. Y., Li, C. L., & Yen, H. Y. (2002). Mapping the northern portion of the Chelungpu fault, Taiwan by shallow reflection seismics. Geophysical research letters, 29(16), 37-1.
  • Wang, C. Y., Tanaka, H., Chow, J., Chen, C. C., & Hong, J. H. (2002). Shallow reflection seismics aiding geological drilling into the Chelungpu fault after the 1999 Chi-Chi earthquake, Taiwan. TERRESTRIAL ATMOSPHERIC AND OCEANIC SCIENCES, 13(2), 153-170.
  • Mori, J., Ito, H., & Wang, C. Y. (2002). Chelungpu fault drilling could resolve seismological issues.
  • Ma, Z., Wang, C. Y., Xu, J., Nie, F., & Zhang, J. (2002). Study on the transverse structures across Taiwan Strait. Science in China Series D: Earth Sciences, 45(12), 1114-1126.
  • Wang, C. Y., Huang, B. S., Wang, C. S., & Chen, H. W. (2002). Special issue on the third anniversary of the 1999 Chi-Chi earthquake in Taiwan-Preface. Terrestrial, Atmospheric and Oceanic Sciences, 13(3), i-ii.
  • Wang, C. Y., Chiu, J. D., & Lin, L. A. (2001). The detection of three active faults on the Taoyuan terrace, northwestern Taiwan by shallow reflection seismics. TERRESTRIAL ATMOSPHERIC AND OCEANIC SCIENCES, 12(4), 599-614.
  • Chang, C. H., Wu, Y. M., Shin, T. C., & Wang, C. Y. (2000). Relocation of the 1999 Chi-Chi earthquake in Taiwan. Terrestrial Atmospheric and Oceanic Sciences, 11(3), 581-590.
  • Wang, C. Y., Chang, C. H., & Yen, H. Y. (2000). An interpretation of the 1999 Chi-Chi earthquake in Taiwan based on the thin-skinned thrust model. Terrestrial Atmospheric and Oceanic Sciences, 11(3), 609-630.
  • Chen, A. J., & Wang, C. Y. (2000, March). Using SPOT Imageries to Monitor Landslides in Chi-chi Earthquake. In International Workshop 2000 in HIT on Generation of Advanced Earth Environmental Information.
  • Wang, C. Y., & Chen, K. P. (1997). A seismic refraction profile across the Longitudinal Valley near Hualien, Taiwan. Terrestrial, Atmospheric and Oceanic Sciences, 8(3), 295-312.
  • Wang, C. Y., Chen, G. P., & Jong, D. T. (1994). The detection of active faults on Taiwan using shallow reflection seismics. Terrestrial, Atmospheric and Oceanic Sciences, 5(2), 277-293.
  • Wang, C. Y., Chen, D. B., & Tsai, D. T. (1992, January). Shallow Reflection Seismics Using Firecrackers as the Source. In Symposium on the Application of Geophysics to Engineering and Environmental Problems 1992 (pp. 435-454). Society of Exploration Geophysicists.
  • Wang, C. Y., & TSAI, D. T. (1991). Shallow Reflection Seismics Using Firecrackers as the Source II: Field Experiments. Terrestrial, Atmospheric and Oceanic Sciences, 2(3), 163.
  • Tsai, D. T., Wang, C. Y., & Yang, R. K. (1990). Shallow Reflection Seismics Using Firecracker as the Source, I: Firecracker. Terrestrial, Atmospheric and Oceanic Sciences, 1(4), 307-320.
  • Wang, C. Y., Tsai, D. T., & Kung, Y. L. (1989). Refraction static correction by the Generalized Reciprocal Method. Petroleum Geology of Taiwan, 25, 1-21.
  • WANG, C. Y., YEH, Y. T., & LIN, S. J. (1989). Dispersion of waves across the SMART-1 array.
  • Wang, C. Y., & Herrmann, R. B. (1988). Synthesis of coda waves in layered medium. pure and applied geophysics, 128(1), 7-42.
  • WANG, C. Y. (1988). Calculations of Qs and Qp using the spectrual ratio method in the Taiwan area.
  • Herrmann, R. B., & Wang, C. Y. (1985). Lg Wave Excitation and Propagation with Application to Nuclear Yield Determination. SAINT LOUIS UNIV MO DEPT OF EARTH AND ATMOSPHERIC SCIENCES.
  • Wang, C. Y. (1981). Wave theory for seismogram synthesis: thesis (Doctoral dissertation, St. Louis University).

研究成果

車龍埔斷層鑽探計畫(TCDP)

  • 2003~2006年主持車籠埔斷層2公里深井鑽探計畫,為PI主要領導,負責鑽井工程合約,協調及整合各式研究、研究單位及人員。車籠埔斷層深井鑽探計畫為九二一地震研究主要事項(TAO專刊,2004、2007)。

台灣大地動力研究計畫 (TAIGER)

  • 2006~2009年主持台灣大地動力學國際合作研究計畫(TAIGER),擔任台方總主持人。2008年負責實施全台16個幾百至幾千公斤級的高爆震源,以800台Texan受波器,及300台地震儀接收震波訊號,全面繪測台灣地下三維之地殼及上部地函構造。
  • TAIGER計畫發現台灣Moho面在35~45公里,且因造山碰撞而變形,北深南淺。

跨海峽震測實驗 (ATSEE)

  • 主持跨台灣海峽震測與福建地震局合作實施海陸聯炸,負責指揮佈設路地300台地震站,為歷年來台灣版塊構造規模最大之研究工作。
  • 2010~2011年在台灣海峽、澎湖、台灣陸地佈設地震站測線,接收來自中國的高爆震源(1000~3000公斤炸藥),首次明確發現來自Moho的Pn波訊號,證實在山根確實存在於台灣中部及南部,但台灣北部則無山根,台灣Moho面最深不超過45公里,南˙北差異不大。

宜蘭紅柴林地熱鑽探計畫

  • 2011~2018年參與國家能源主軸計畫,負責震測調查與鑽井選址,完成高解析三維震測,建立鑽井場址精細三維構造震測剖面,提供鑽井控制,並建立基礎資料(baseline),作為地熱開發時的對比基礎。

台灣活動斷層調查

  • 完成「八卦-大度-后里」台地西緣之彰化斷層調查,將斷層線推至東側高階台地崖界,並分為南北二段,中間為以東北-西南走向、通過后里-沙鹿之泰安斷層所切開,確定為斷層彎曲褶皺,屬盲斷層,有活動可能性。另外亦明確否定彰化斷層之副斷層-鐵砧山斷層及橫山斷層之存在(TAO,2003;地調所活動斷層專刊,2003)。
  • 2001年委請中油震測隊實施兩條橫跨車龍埔斷層之深部震測,發現40度東傾之斷層面,此面直接下達8公里深之震源位置,並向東變平併入基底滑脫面(TAO,2002)。
  • 2003年南北縱向跨大安大甲二溪之剖面,發現TT-boundary作為斷層在大甲溪東轉之機制(GRL,2003)。確定TT-boundary之存在(GRL,2004;TAO專刊。2006)。
  •  於車籠埔斷層實施超過200條之淺層反側震測,深入探討車籠埔斷層之細部三維構造,發現斷層面在大甲溪南岸接近地表,從而提出構造主導斷層破裂之理論(Geophysics,2002)。
  • 配合日本研究人員在車籠埔斷層之鑽探,提出鄰近區域之震測剖面,有效協助鑽井工作(TAO,2002,v2;TAO,2002,v3)。震測剖面有效預測地層構造,對於車龍埔鑽探前勘查鑽井場址決定井位有絕對之影響(GRL,2002)。
  •  全面繪測桐樹湖斷層及內林背斜,發現其淺部地層彎曲厲害,但屬老構造,桐樹湖斷層不再是活動斷層(地調所活動斷層專刊,2004)。水利署湖山水庫之星艦設計,特別引用。
  • 全面繪測九芎坑斷層及小梅背斜,以高品質震測了解九芎坑斷層分三段,由北而南漸弱,斷層錯動之機制可以根據震測剖面重建,並提出中台灣之「中軸線」的大架構觀念(地調所活動斷層專刊,2005)。
  • 重新探勘及詮釋1906年梅山地震(M=7.1)之梅山斷層及1935年新竹-台中地震(M=7.1)之屯子角斷層,發現壓縮拱起花狀構造,對該二右移斷層之淺部及深部重新解釋(地質學會WPES活動斷層專刊,2006)。
  • 全面繪測木屐寮斷層及六甲斷層,發現二者都屬於背後之大背斜前緣之向斜軸部彎曲,木屐寮斷層再白河以北彎曲極大,甚至已發生錯動。六甲斷層則彎曲但未達破裂錯動。

盆地構造與都會區地震研究

  • 以震盪震源繪測台北盆地、埔里盆地及宜蘭平原之地下基盤面及地層構造。
  • 發現臺北盆地最深不超過700公尺,以基盤下之坎腳斷層拱起為界,西北部以4度加深至山腳斷層邊界。
  • 發現埔里盆地最深不超過500公尺,呈淺碟狀,機盤面以上之堆積層分水平之上段及彎曲之下段,顯然為曲漥作用所產生。
  • 宜蘭平原南淺北深,蘭陽溪以南基盤面淺於700公尺,有活斷層(三星斷層)穿過羅東南側;蘭陽溪以北最深到1400公尺(在壯圍海岸),沿西北邊有基盤斜面,另有逆斷層東西向切過北段的機盤面,指出宜蘭平原之形成來自板塊壓縮。

二氧化碳封存構造研究

  • 2011~2013年參與國家能源主軸計畫,負責震測調查與鑽井選址,完成高解析三維震測,建立鑽井場址精細三維構造震測剖面,提供鑽井控制,並建立基礎資料(baseline),作為二氧化碳儲氣後的對比基礎。
  • 2022年~參與產學合作二氧化碳封存構造研究。

震測資料處理技術研究

  • 完成折射波風化層修正之DDT法的理論及程式設計,該法結合震測理論中最主要的反射與折射,有其學術上特殊之意義。
  • 提出「1秒震測」(1 sec seismic)之想法,從施測到資料處理與構造解釋,全面提升淺層反射震測之能力,作為地質調查強而有力的工具(GRL,2005)。

指導學生

碩士論文

  • 76 蘇旭昌 臺灣地區P波與S波之走時異常及耗散
  • 76 蔡道賜 折射震測泛化互換法及表面波之研究
  • 77 林素貞 羅東陣列震波頻散之分析
  • 77 陳義勝 泛化波線法與波數正階法聯合應用-SMART-1陣列記錄模擬
  • 77 龔游龍 折射波風化層修正
  • 78 鄭美英 使用波數積分法研究盆地效應
  • 78 孫志財 短週期表面波之頻散分析
  • 79 陳桂寶 臺灣地區理論震波衰減率
  • 79 許麗文 移位應用於淺層震測之研究
  • 79 陳朝輝 利用波線追蹤法探求臺灣東部地區地殼速度構造
  • 80 江玉燕 以同支距泛化互換法求風化層靜態修正
  • 81 吳聲政 中南部氣象站附近之震測及微地動調查
  • 81 鍾大同 獅潭地震斷層野外地質調查與淺層震測及微重力測勘之綜合研究
  • 81 甯怡彰 臺東地區微震、震測及重力之研究
  • 81 莊文福 蘭陽平原場址效應調查研究
  • 82 蕭文啟 臺北盆地關渡蘆洲地區之淺層反射震測調查
  • 82 施心玫 淺層反射震測資料處理之若干改進
  • 82 王聖育 蘭陽平原地震波放大作用之研究
  • 83 蔡道賜 震測應用於淺部地層構造測繪之研究
  • 83 張舜傑 以淺層反射震測法調查花蓮市地區地下地質構造
  • 83 蔡永龍 臺北盆地三重新莊樹林地區之淺層反射震測調查
  • 84 葛滿龍 臺北盆地板橋中和永和地區之淺層反射震測
  • 85 李奕亨 使用反射震測法研究臺北盆地松山層剪力波速度構造
  • 85 林淑芳 臺灣西北部地區強地動場址效應分析
  • 85 張漢忠 臺北盆地第四紀地層震測研究
  • 86 顏昌棟 臺北盆地西北部地層速度構造及山腳斷層偵測
  • 86 楊瑛瑛 臺北盆地、宜蘭平原及臺灣西北部之強震頻譜分析
  • 87 陳桂寶 以地震資料研究高屏地下之淺部地層構造
  • 87 李俊延 臺北盆地 S 波速度構造
  • 87 邱俊達 雙連坡線形及其附近構造
  • 88 沈嘉蕙 以波線追跡研究西北線型地震帶之速度構造
  • 88 林良安 湖口斷層淺層反射震測之研究
  • 88 林慶仁 台灣現行測震儀器之特性檢測研究
  • 88 黃文紀 嘉南地區地震震源特性之研究
  • 88 林金泉 臺灣北部震波耗散及場址效應之分離
  • 88 郭炫佑 後甲里斷層及其附近構造
  • 89 洪智賢 三義斷層之逆衝構造研究
  • 89 翁群評 小崗山斷層及其附近構造
  • 89 許文立 彰化斷層及其附近構造
  • 90 陳璿臣 九二一地震車籠埔斷層震測研究
  • 90 廖慧如 台灣西部場址效應之研究
  • 90 蕭瑞文 清水斷層之淺部構造
  • 91 江淑君 DDT:毋須摘取初達波到達時間之折射波風化層修正
  • 91 李翔鈞 車籠埔斷層北段之地下構造研究
  • 91 魏碩穎 車籠埔斷層烏溪至濁水溪段之地下構造
  • 92 陳怡伶 台北盆地構造及震波速度分析
  • 92 劉耕源 斗六丘陵桐樹湖斷層地下構造研究
  • 92 賴家祥 車籠埔斷層面起伏構造之研究
  • 93 林泓毅 以淺層反射震測法探究梅山斷層之地下構造
  • 93 胡玉燕 以淺層反射震測探測新城斷層地下構造
  • 93 翁子偉 以反射震測法研究九芎坑斷層及其附近構造
  • 94 王宏霖 以反射震測法研究木屐寮斷層及其附近構造
  • 94 陳郁文 以反射震測法研究觸口斷層及其附近構造
  • 94 葛滿龍 新社地區河階地形與地下構造關係之研究
  • 95 王雯君 以反射震測法研究屯子腳斷層之平移構造形貌
  • 95 陳延宗 以反射震測法研究左鎮斷層及其附近構造
  • 95 陳建宏 以反射震測法研究六甲斷層及其附近構造
  • 96 黃慶甲 以淺層反射震測探勘埔里盆地地下構造
  • 96 劉致育 利用中尺度震測系統來探討二氧化碳封存場址
  • 96 簡志宇 台北盆地西北深部構造之研究
  • 97 柯瑞祥 埔里盆地之震測研究
  • 97 郭耀文 利用波線追跡法探討台灣莫荷面深度
  • 98 張峻瑋 利用反射震測探討宜蘭平原南部之基盤深度及斷層分佈
  • 99 石政為 利用反射震測探討宜蘭平原之基盤深度及構造演化
  • 99 李柏寬 以TAIGER資料推求北部之速度構造
  • 99 施驊珮 小林村山崩場址折射震測調查
  • 101 楊鈞 三維震測應用於鑽井場址地下構造研究
  • 101 蘇思伃 二氧化碳封存場址之震測資料分析
  • 102 管卓康 以三維震測調查桃科園區CCS井址地下構造
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