top of page

Dr. Hyo-Jeong Kim

Postdoc Researcher

증명사진2_2022.jpg

Hyo-Jeong Kim obtained a Ph. D. in Atmospheric Sciences at Yonsei University in 2022. Her research focuses on climate variability and climate response to external forcing. Specifically, she is interested in how climate components interact with each other and how they evolve in delicately balanced ways. Her interest in climate developed during her college days, travelling to Yellowknife, the glaciers of the Rocky Mountains, and Death Valley.

Education

2017-2021

Yonsei University, South Korea

2015-2017

Yonsei University, South Korea

2010-2015

Yonsei University,
South Korea

Ph. D., Atmospheric Sciences

Master of Science, Atmospheric Sciences

Bachelor of Science, Atmospheric Sciences

Publications

S.-K. Kim, H.-J. Kim, S.-I. An., and H. Dijkstra. Slow and soft passage through tipping point of the Atlantic Meridional Overturning Circulation in a changing climate, NPJ Clim Atmos Sci (Accepted)

S.-I. An, J. Shin, S.-W. Yeh, S.-W. Son, J.-S. Kug, S.-K., Min, and H.-J. Kim. (2021) Global cooling hiatus driven by an AMOC overshoot in a carbon dioxide removal scenario, Earth’s Future, 9, e2021EF002165

H.-J. Kim, S.-I. An, S.-K. Kim, and J.-H. Park. (2021) Feedback processes modulating the sensitivity of Atlantic Thermohaline Circulation to freshwater forcing timescales, J Clim, 34, 5081-5092

S.-I. An, H.-J. Kim, and S.-K. Kim. (2021) Rate-dependent hysteresis of the Atlantic Meridional Overturning Circulation system and its asymmetric loop, Geophy Res Lett, 48, e2020GL090132

H.-J. Kim, S.-I. An, and D. Kim. (2021) Timescale-dependent AMOC-AMO relationship in an earth system model of intermediate complexity, Int J Climatol, 41, E3298-E3306

H.-J. Kim and S.-I. An. (2019) Impact of North Atlantic Freshwater Forcing on Pacific Meridional Overturning Circulation under Glacial and Interglacial Conditions, J Clim, 32. 4641-4659

S.-I. An, H.-J. Kim, W. Park, and B. Schneider. (2017) Impact of ENSO on East Asian winter monsoon during interglacial periods: effect of orbital forcing. Clim Dyn, 49(9), 3209-3219.

bottom of page