Je-geun Park

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Je-Geun Park (Hangul 박제근, Chinese character 朴濟根, born 1965) is a physicist in the Republic of Korea. He is a condensed matter physicist known for his work on wide-ranging problems of magnetism, in particular strongly correlated electron systems. He is credited with discovering a new class of magnetic 2D materials, also known as van der Waals magnets. He has worked as a professor at Seoul National University.

Biography

He was born on October 14, 1965, in Gosung, Republic of Korea. He is married with one daughter. He graduated from Dae-Ah High School in 1984 and attended the Department of Physics at Seoul National University from 1984 to 1988. After his undergraduate, he went on to do his MSc in the group of Professor Se-Jung Oh and worked on core-levels spectroscopy of Mn dihalides and graduated in 1990. He won a national overseas scholarship from the Korean government in 1989 and went to Imperial College, London, to study PhD under Prof. Bryan Coles, FRS. Before returning to Korea, he spent a few years of stints at Lab. Louis Neel, Grenoble, France and Birkbeck College, London. He worked at Inha University (1996–2001) and Sungkyunkwan University (2001–2010). He moved to Seoul National University as a university professor in 2010 and has since built a world-renowned group with pioneering works on van der Waals magnets. He is currently a professor at the Department of Physics and Astronomy of Seoul National University.

Education

• 1984–1988: BA in physics, Seoul National University
• 1988–1990: MSc in physics, Seoul National University
• 1990–1993: PhD in physics, Imperial College, London, UK

Career

Je-Geun Park worked at Lab. Louis Neel, Grenoble, France and Birkbeck College, London, as a post-docs after getting PhD from Imperial College, London, in 1993. He then returned to Korea to take up an assistant professor position at Inha University from 1996 to 2000 and was promoted to associate professor in 2001. He then worked as an associate professor at SungKyunKwan University from 2001 to 2006 before becoming a professor from 2006 to 2009 and SKKU fellow from 2009 to 2010. He later moved to Seoul University in 2010 as a professor. He is currently a director at the Center for Quantum Materials.

Awards

• 2023 : The POSCO TJ Park Science Award^[1]
• 2017 : Member, the Korean Academy of Science and Technology^[2]
• 2016 : The Korea Science Award^[3]
• 2015 : The 2015 Academic Award, the Korean Physical Society^[4]
• 2007 : LG Yonam Fellowship^[5]
• 1995 : Rosalind Franklin Prize, Birkbeck College, London^[5]
• 1989 : The Korean Government National Scholarship

Patents

Jeong Ho Lee's patents include Probe System For Low-Temperature High-Precision Heat Transport Measurement And Measurement Device Including Same^[6] registered in 2022 and Magnetic Memory Using Spin Current, Operating Method Thereof, And Electronic Apparatus Including Magnetic Memory^[7] registered in 2023.

Publications

• 1992 : Origin of 3s splitting in the photoemission spectra of Mn and Fe insulating Compounds^[8]
• 2006 : Spin gap in Tl2Ru2O7 and the possible formation of Haldane chains in three-dimensional crystals^[9]
• 2008 : Giant magneto-elastic coupling in multiferroic hexagonal manganites^[10]
• 2012 : Spin wave measurements over the full Brillouin zone of multiferroic BiFeO3^[11]
• 2013 : Magnon breakdown in a two dimensional triangular lattice Heisenberg antiferromagnet of multiferroic LuMnO3^[12]
• 2016 : Ising-Type Magnetic Ordering in Atomically Thin FePS₃^[13]
• 2016 : Spontaneous decays of magneto-elastic excitations in noncollinear antiferromagnet (Y,Lu)MnO₃^[14]
• 2018 : Magnetism in two-dimensional van der Waals materials^[15]
• 2018 : Charge-spin correlation and self-doped ground state in van der Waals antiferromagnet NiPS₃^[16]
• 2019 : Suppression of magnetic ordering in XXZ-type antiferromagnetic monolayer NiPS₃^[17]
• 2020 : Gigantic current control of coercive field and magnetic memory based on nanometer-thin ferromagnetic van der Waals Fe₃GeTe₂^[18]
• 2020 : Momentum-dependent magnon lifetime in the metallic noncollinear triangular antiferromagnet CrB₂^[19]
• 2020 : Coherent many-body exciton in van der Waals antiferromagnet NiPS₃^[20]
• 2021 : Spin texture induced by nonmagnetic doping and spin dynamics in 2D triangular lattice antiferromagnet h-Y(Mn,Al)O-3^[21]
• 2021 : Possible persistence of multiferroic order down to bilayer limit of van der Waals material NiI₂^[22]
• 2021 : Sizable suppression of thermal Hall effect upon isotopic substitution in SrTiO₃^[23]
• 2021 : Giant modulation of optical nonlinearity by Floquet engineering^[24]
• 2022 : Multiferroic-Enabled Magnetic-Excitons in 2D Quantum-Entangled Van der Waals Antiferromagnet NiI₂^[25]

References

External links

• "Physics - Je-Geun Park". physics.aps.org. Retrieved 2023-12-29.
• "Je-Geun Park: understanding strongly correlated physics – JPhys+". jphysplus.iop.org. 19 February 2016. Retrieved 2023-12-29.
• "Emergent Phenomena Group". magnetism.snu.ac.kr. Retrieved 2023-12-29.
• 서울대학교 물리천문학부. "서울대학교 물리천문학부". physics.snu.ac.kr. Retrieved 2023-12-29.

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