Publications

[37] 최성자*, 류충렬, 최진혁, 모량단층의 분포와 특성 [Tracking of the Moryang Fault and it's characteristics]. 자원환경지질, 54(3), 389-397, 2021.

[36] Kuwahara, Y. et al., Dependence of earthquake faulting type on fault strike across the Korean Peninsular: Evidence for weak faults and comparison with the Japanese Archipelago. Tectonophysics. 2021.

[35] Son, M.*, Cho, C.S., Choi, J.-H., Jeon, J.-S. & Park, Y.K., Spatiotemporal patterns of the 2020 Haenam earthquake sequence, South Korea: lineament and migration implying fluid-driven earthquake swarm. Geosciences Journal, 25(1), 2020, doi:10.1007/s12303-020-0043-6.

[34] 천영범, 최진혁, 최이레, 배한경, 한기환, 손문, 최성자, 류충렬*, 양산단층 주단층핵 분포와 내부변형의 이해: 연구동향과 과제 [Understanding the distribution and internal structure of the main core of the Yangsan Fault Zone: Current trends and future work]. 지질학회지, 56(5), 619-640, 2020.

[33] Gihm, Y.S.*, Ko, K., Choi, J.-H. & Choi, S.-J., Large-scale, Miocene mud introusion into the overlying Pleistocene coastal sediment, Pohang city, SE Korea: Deformation mechanism, trigger, and paleo-seismological implication for the 2017 Pohang earthquakes. Econ. Environ. Geol., 53(5), 585-596, 2020.

[32] Cheon, Y., Choi, J.-H., Kim, N., Lee, H., Choi, I., Bae, H., Rockwell, T.K., Lee, S.R., Ryoo, C.-R., Choi, H. & Lee, T.-H.*, Late Quaternary transpressional earthquakes on a long-lived intraplate fault: A case study of the Southern Yangsan Fault, SE Korea, Quaternary International, 553, 132-143, 2020.

[31] 김남권, 최진혁*, 박승익, 이태호, 최이레, 제4기 하안단구 지형을 이용한 중남부 양산단층의 누적변위 분석 [Cumulative offset analysis of the Central-Southern Yangsan Fault based on topography of Quaternary fluvial terrace]. 지질학회지, 56(2), 135-154, 2020.

[30] 김영석*, 손문, 최진혁, 최정헌, 성영배, 이진현, 한반도 활성단층지도 제작과정 및 해결과제 [Processes and challenges for the production of Korean active faults map]. 지질학회지, 56(2), 113-134, 2020.

[29] Ko. K., Choi, J.-H., Kim, Y.-S.* & Han, J., Characteristics of bleaching around major structures in a reservoir-cap rock system, SE Utah, USA, Arabian Journal of Geosciences 13:113, doi.org/10.1007/s12517-020-5117-2, 2020.

[28] Cheon, Y.*, Choi, J.-H., Lee, S.R., A proposal for a standardized fault description format to study active intraplate tectonics in the Korean Peninsula, GEO DATA, 1.1, 50-57, 2019.

[27] Choi, J.-H., Ko, K., Gihm, Y.S., Cho, C.S., Lee, H., Song, S.G., Bang, E.-S., Lee, H.-J., Bae, H.-K., Kim, S. W., Choi, S.-J., Lee, S.S. & Lee. S.R.*, Surface deformations and rupture processes associated with the 2017 Mw 5.4 Pohang earthquake, Korea, Bulletin of the Seismological Society of America 109(2), 756-769, doi.org/10.1785/0120180167, 2019.

[26] 박하은, 최주아, 최진혁, 정대교, 김진철*, 석영의 광여기루미네선스 신호 특성을 이용한 제4기 퇴적환경 해석 [Interpretation of Quaternary depositional environment using quartz OSL characteristics]. 지질학회지, 54(4), 425-431, 2018.

[25] Gihm Y.S.*, Kim, S.W., Ko, K., Choi, J.-H., Bae, H., Hong, P.S., Lee, Y., Lee, H., Jin, K., Choi, S.-J., Kim, J.C., Choi, M.S. & Lee, S.R., Paleoseismological implications of liquefaction-induced structures caused by the 2017 Pohang Earthquake, Geosciences Journal, 22(6), 871-880, doi.org/10.1007/s12303-018-0051-y, 2018.

[24] Choi, J.-H.*, Klinger, Y., Ferry, M., Ritz, J.-F., Kurtz, R., Rizza, M., Bollinger, L., Davaasambuu, B., Tsend-Ayush, N. & Demberel, S., Geologic inheritance and earthquake rupture processes: the 1905 M ≥ 8 Tsetserleg-Bulnay strike-slip earthquake sequence, Mongolia. Journal of Geophysical Research: Solid Earth, 123(2), 1925-1953, doi.org/10.1002/2017JB013962, 2018.

[23] Jin, K., Kim, Y.-S.*, Yang, S.-J., Choi, J.-H. & Kim, K.-O., Deformation history and characteristics of the Ilgwang Fault in Southeast Korea. Geosciences Journal, 22(2), 209-226, 2018.

[22] 김영석, 김태형, 경재복, 조창수, 최진혁*, 최철웅, 9.12 경주지진의 지진발생기작 예비연구 [Preliminary study on rupture mechanism of the 9.12 Gyeongju earthquake]. 지질학회지, 53(3), 407-422, 2017.

[21] Klinger, Y.*, Choi, J.-H. & Vallage A., Fault branching and long-term earthquake rupture scenario for strike-slip earthquakes. In Fault Zone Dynamic Processes: Evolution of Fault Properties During Seismic Rupture, edited by M.Y. Thomas, T.M. Mitchell and H.S. Bhat, John Wiley & Sons, Inc., Hoboken, NJ, USA. doi: 10.1002/9781119156895.ch11, 2017.

[20] 최진혁*, 김영석, Yann Klinger, 대규모 지진에 수반된 지표파열특성에 관한 최근 연구동향 [Recent progress in studies on the characteristics of surface rupture associated with large earthquakes]. 지질학회지, 53(1), 129-157, 2017.

[19] Edwards, P., Choi, J.-H. & Kim, Y.-S.*, Variations in thickness of fault-controlled dikes and its implications: a case study of Gosung area, SE Korea. Island Arc, 26(2), e12181, 2017.

[18] 김태형, 김영석*, 이영민, 최진혁, 제한된 천부자료와 시추코어분석을 통한 심부지질단면도 작성과 단층 인지법: 한반도 남동부 양산단층대 주변에서의 적용 [Constructing geological cross-sections at depth and interpreting faults based on limited shallow depth data analysis and core logging: southern section of the Yangsan Fault System, SE Korea]. 지질공학, 26(2), 277-290, 2016.

[17] Choi, J.-H., Edwards, P., Ko, K. & Kim, Y.-S.*, Definition and classification of fault damage zones: a review and a new methodological approach. Earth-Science Reviews, 152, 70-87, 2016.

[16] 최진혁, 김영석*, 권세현, Paul Edwards, Sowreh Rezaei, 김태형, 임순복, 울산 매곡동 일대의 대규모 단층대 특성과 제4기 단층운동 [Characteristics of large-scale fault zone and Quaternary fault movement in Maegok-dong, Ulsan]. 지질공학, 25(4), 485-498, 2015.

[15] Choi, J.-H., Kim, Y.-S.* & Choi, S.-J., Identification of a suspected Quaternary fault in eastern Korea: Proposal for a paleoseismic research procedure for the mapping of active faults in Korea. Journal of Asian Earth Sciences, 113, 897-908, 2015.

[14] 이진현, Sowreh Rezaei, 홍예지, 최진혁, 최정헌, 최원학, 이근우, 김영석*, 경북 경주시 단구리 일대에서의 트렌치 조사를 통한 북부 양산단층의 제4기 단층운동 특성분석 [Quaternary fault analysis through a trench investigation on the northern extension of the Yangsan fault at Dangu-ri, Gyungju-si, Gyeongsangbuk-do]. 지질학회지, 51(5), 471-485, 2015.

[13] 고경태, 최진혁, 김영석*, 변산반도 일원의 지질구조 분석을 통해 도출된 고응력장 변화 [Paleostress changes based on analysis of geological structures around the Byeonsan peninsula area]. 지질학회지, 51(2), 157-170, 2015.

[12] Choi, J.-H., Yang, S.-J., Han, S.-R. & Kim, Y.-S.*, Fault zone evolution during Cenozoic tectonic inversion in SE Korea. Journal of Asian Earth Sciences, 98, 167-177, 2015.

[11] Grützner, C., Choi, J.-H., Edwards, P. & Kim, Y.-S. (eds), Proceedings of the 5th International INQUA Meeting on Paleoseismology, Active Tectonics and Archeoseismology (PATA Days), 21-27 September, 2014, Busan, Korea. The Geological Society of Korea (GSK) & Korean Institute of Geoscience and Mineral Resources (KIGAM), ISBN: 979-1-19-534410-9 93450, 2014.

[10] Choi, J.-H., A study on factors controlling fault evolution and surface rupture propagation based on geometric and kinematic analyses. Thesis for the Degree of Doctor of Philosophy. Department of Earth & Environmental Sciences, Pukyong National University, 2014.

[9] Kim, Y.-S.*, Edwards, P. & Choi, J.-H., Architecture and evolution of fault damage zones and their applications to fluid flow: a review. In Advances in Environmental Research (Vol. 29), edited by J.A. Daniels, pp. 163-182, Nova Science Publishers, 2013.

[8] 최진혁, 김영석*, 김정빈, 습곡된 부딘구조의 기하학적 및 운동학적 발달특성 [Geometric and kinematic characteristics of the folded boudin structures]. 지질학회지, 49(5), 553-563, 2013.

[7] Choi, J.-H., Jin, K., Enkhbayar, D., Davvasambuu, B., Bayasgalan, A. & Kim, Y.-S.*, Rupture propagation inferred from damage patterns, slip distribution, and segmentation of the 1957 MW 8.1 Gobi-Altay earthquake rupture along the Bogd fault, Mongolia. Journal of Geophysical Research, 117, B12401, 2012.

[6] 최진혁, 고경태, 김재윤, 김영석*, 석회동굴 내 동굴생성물의 파괴특성을 이용한 고지진 연구: 경북 울진 성류굴의 예 [A paleoseismological study based on the damage characteristics of speleothems in limestone cave: a case study from Seongryu Cave in Uljin, Korea]. 지질학회지, 48(3), 225-240, 2012.

[5] 고경태, 최진혁, 김영석*, 퇴적암 내의 지질구조가 비탈면 안정성에 미치는 영향: 대구 북서부 지역의 예 [Effects of geological structures on slope stability: an example from the northwestern part of Daegu, Korea]. 지질공학, 22(1), 1-13, 2012

[4] 최진혁, 김현태, 오재용, 김영석*, 부산 황령산에서의 수목 성장 및 지형 특성을 이용한 도시 산사태의 발생원인 분석 [Analysis of the controlling factors of an ulban-type landslide at Hwangryeong Mountain based on tree growth patterns and geomorphology]. 지질공학, 21(4), 281-293, 2011.

[3] Choi, J.-H., Fault zone characteristics and coseismic surface ruptures associated with strike-slip faults. Thesis for the Degree of Master of Science. Department of Environmental Geosciences, Pukyong National University, 2010.

[2] 최진혁, 양석준, 김영석*, 울산시 상천리 일대에 발달하는 남부 양산단층의 단층대 분류와 지질구조적 특성 [Fault zone classification and structural characteristics of the southern Yangsan fault in the Sangcheon-ri area, SE Korea]. 지질학회지, 45(1), 9-28, 2009.

[1] 이민주, 양석준, 최진혁, 김영석*, 부산 이기대 지역의 단열 발달사 해석 [Developing history of fractures in the Igidae area, Busan, SE Korea]. 지질학회지, 44(3), 259-271, 2008.