Min-Seop Ahn

Climate Dynamics Laboratory
Seoul National University, Seoul 151-747, KOREA
Tel: +82-2-880-8124
E-mail: msahn@climate.snu.ac.kr

Education :

  • M. S. 2012 Major : Atmospheric Sciences,
    Seoul National University, Korea

  • B. S. 2010 Major : Oceanography,
    Chonnam National University, Korea

Career :

  • December 2009 - August 2010 : Korea Ocean Research&Development Institute

Publication :

  • Ahn, Min-Seop, Daehyun Kim, Kenneth R. Sperber, In-Sik Kang, Eric Maloney, Duane Waliser, Harry Hendon on behalf of WGNE MJO Task Force, 2017: MJO Simulation in CMIP5 Climate Models: MJO Skill Metrics and Process-Oriented Diagnosis, Climate Dynamics, DOI: 10.1007/s00382-017-3558-4

  • Kang, In-Sik, and Min-Seop Ahn, 2017: Propagation Characteristics of Tropical-Subtropical Intraseasonal Variations during Boreal Summer and Their Mechanisms, The Global Monsoon System: Research and Forecast 3rd Edition, 139-146

  • Kang, In-Sik, Min-Seop Ahn, Young-Min Yang, 2016: A GCM with cloud microphysics and its MJO simulation, Geoscience Letters, 3, 16

  • Kim, Daehyun, Min-Seop Ahn, In-Sik Kang, Anthony D. Del Genio, 2015: Role of Longwave Cloud-Radiation Feedback in the Simulation of the Madden-Julian Oscillation, Journal of Climate, 28, 6979-6994

  • Kang, In-Sik, Fei Liu, Min-Seop Ahn, Young-Min Yang, Bin Wang, 2013: Role of SST structure on convectively coupled Kelvin-Rossby waves and its implication on MJO formation, Journal of Climate, 26, 5915-5930

  • Kug, Jong-Seong and Min-Seop Ahn, 2013: Impact of urbanization on recent temperature and precipitation trends in the Korean peninsula, APJAS, 49(2), 151-159

  • Kug, Jong-Seong, Min-Seop Ahn, Mi-Kyung Sung, Sang-Wook Yeh, Hong-Sik Min, Young-Ho Kim, 2010: Statistical relationship between two types of El Nino events and climate variation over the Korean Peninsula, APJAS, 46(4), 467-474


  • Min-Seop Ahn, 2017: Implementation of Comprehensive Cloud Microphysics in Global Climate Models, Ph.D. Thesis, Seoul National University

  • Min-Seop Ahn, 2012: Simulation of the MJO in an Idealized GCM: Impact of surface boundary condition on the slow eastward propagation of equatorial wave, M.S. Thesis, Seoul National University