Myung-Chul Jung


Ph.D. in Physics


Postdoctoral Research Scholar


Office : Lab of Theoretical Quantum Transport & Mesoscopic Physics 

(Natural Science Building: Room No. 4515)

Department of Physics Education, Chosun University, 30 Chosundae3gil, Dong-gu, Gwangju, South Korea, 61452

E-mail : mcjung24@gmail.com

mcjung24@chosun.ac.kr

                 

Google Scholar

⦿ Professional Experience

▶ PostDoctoral Researcher (Jan. 2024current)

    - Department of Physics Education, Chosun University, Gwangju, Republic of Korea

          - Institute of Well-Aging Medicare & Chosun University LAMP Center, Chosun University, Gwangju, Republic of Korea

Researcher Fellow (May. 2023Dec. 2023

    - Department of Display and Semiconductor Physics, Korea University (Sejong), Republic of Korea

▶ PostDoctoral Researcher (Apr. 2021Mar. 2023

    - Department of Physics, Arizona State University, USA

▶ PostDoctoral Researcher (Sep. 2018 – Mar. 2021

    - Department of Physics, KAIST, Republic of Korea

⦿ Education

▶ Ph.D. (Mar. 2013 – Aug. 2018)

- Department of Applied Physics, Korea Univ., Sejong, South Korea

▶ M.S. (Mar. 2011 – Feb. 2013)

- Department of Applied Physics, Korea Univ., Sejong, South Korea

▶ B.S. (Mar. 2004 – Feb. 2011)

- Department of Display and Semiconductor Physics, Korea Univ., Sejong, South Korea

⦿ Research Interests

1. Material properties simulations

  ✔︎ magnetic property in transition metal oxides: NaOsO3, BaOsO3, SrRuO3

        - strongly correlated & large spin-orbit coupling effects

- octahedra engineering

  ✔︎ electron-phonon coupling-mediated superconductors: LMBN(M=Ni,Pt), PdTe, YC2, Y2O2Bi

  ✔︎ unconventional superconductor: nickelates, LaNiGa2

  ✔︎ Berry curvature dipole, topological invariants, mirror Chern number, surface bands: ThTaN, TaSe3, WSe2

  ✔︎ thermal & optical transport: TMPS3, Sr2VO3FeAS


 2. Computational material design for the new type of functional systems

  ✔︎ improving the reflectivity of materials

  ✔︎ thermal & dynamical stability: new 2D vdW materials

  ✔︎ new topological and superconducting & spintronics candidates: NaZnBi, ATe, La2VMnO6


 3. Surface study of nanoclusters

  ✔︎ a molecule or atom adsorption on the surface of a nanocluster: CsPbBr3 NC, Cu NC


4. Graphene straintronics for quantum computing

  ✔︎ spin-orbit interaction in strained graphene for graphene spin qubits

  ✔︎ biochemical molecule adhesion on graphene surface for biocompatible graphene materials