[50] In preparation (2025)
Geometric Klein Tunneling
Sang-Hoon Han, Jun-Won Rhim†, and Chang-geun Oh†[49] In preparation (2025)
Ideal Pseudospin-1 Dirac Particles
Jaeuk Seo*, Seunghan Lee*, Hoonkyung Lee†, and Jun-Won Rhim†[48] Submitted (2025)
Magnetic phase transitions driven by quantum geometry
Chang-geun Oh, Taisei Kitamura, Akito Daido, Jun-Won Rhim, and Youichi Yanase[47] Submitted (2025)
Topological Protection by Local Support Symmetry and Destructive Interference
Jun-Won Rhim†, Jaeuk Seo, Seongjun Mo, Hoonkyung Lee, Sejoong Kim, and B. Andrei Bernevig†[46] Submitted (2025)
Petahertz Electric Current Switching in Quantum Geometric Semimetals
Youngjae Kim*, Sejoong Kim†, and Jun-Won Rhim†[45] Submitted (2025)
Universal Optical Conductivity from Quantum Geometry in Quadratic Band-Touching Semimetals
Chang-geun Oh*, Sun Woo Kim*, Kun Woo Kim†, Bartomeu Monserrat†, and Jun-Won Rhim†[44] Scientific Reports 15, 31806 (2025)
Quantum geometry in hexagonal circuit QED lattice with triple leg stripline resonators
Dongmin Kim, Jun-Won Rhim, and Kyungsun Moon[43] Physica Status Solidi (RRL) 2500247 (2025)
Enhancing van-Hove singularities in SrRuO3 films by vacancy engineering
Moon Hyoung Lee, Hyungwoo Lee†, and Jun-Won Rhim†[42] New Journal of Physics 27, 013017 (2025)
Magneto-nonlinear Hall effect in time-reversal breaking system
Anwei Zhang† and Jun-Won Rhim†[41] Advanced Science 11, 2411313 (2024)
Thermoelectric Transport Driven by the Hilbert-Schmidt Distance
Chang-geun Oh, Kun Woo Kim†, and Jun-Won Rhim†[40] Phys. Rev. B 110, 155412 (2024)
Revisiting the magnetic responses of bilayer graphene from the perspective of the quantum distance
Chang-geun Oh, Jun-Won Rhim and Bohm-Jung Yang[39] ACS Nano 18, 25535 (2024)
Atomically thin two-dimensional Kagome flat band on silicon surface
Jae Hyuck Lee*, Gwan Woo Kim*, Inkyung Song, Yejin Kim, Yoonjae Lee, Sung Jong Yoo, Deok-Yong Cho, Jun-Won Rhim†, Jongkeun Jung†, Gunn Kim†, Changyoung Kim†[38] Communications Physics 7, 179 (2024)
Quasi-localization and Wannier obstruction in partially flat bands
Jin-Hong Park and Jun-Won Rhim†[37] Nano Letters 24, 4885 (2024)
Engineering two-dimensional nodal semimetals in functionalized biphenylene by fluorine adatoms
Seongjun Mo*, Jaeuk Seo*, Seok-Kyun Son, Sejoong Kim†, Jun-Won Rhim†, Hoonkyung Lee†[36] Advanced Science 11, 2307288 (2024)
Tunable colossal anomalous Hall conductivity in half-metallic material induced by d-wave-like spin-orbit gap
Joonyoung Choi*, Jin-Hong Park*, Mi Kyung Kim, Wonshik Kyung, Changyoung Kim, Jun-Won Rhim†, Se Young Park†, Younjung Jo†[35] Current Applied Physics 59, 129 (2024)
Low-frequency noise behavior of quasi-two-dimensional electron system based on complex oxide heterostructures
Youngmin Kim*, Doyeop Kim*, Sang Hyeon Mo, Jung-Woo Lee, Kitae Eom, Jun-Won Rhim†, Hyungwoo Lee†[34] Communications Physics 6, 305 (2023)
General construction scheme for geometrically nontrivial flat band models
Hyeongseop Kim*, Chang-geun Oh*, and Jun-Won Rhim†[33] Laser & Photonics Reviews 17, 2200315 (2023)
Topological flatband loop states in fractal-like photonic lattices
Limin Song, Yuqing Xie, Shiqi Xia, Liqin Tang, Daohong Song, Jun-Won Rhim, and Zhigang Chen[32] Photonics 10, 29 (2022)
Flat bands in network superstructures of atomic chains
Donghyeok Heo, Jun Seop Lee, Anwei Zhang†, and Jun-Won Rhim†[31] Communications Physics 5, 320 (2022)
Bulk-interface correspondence from quantum distance in flat band systems
Chang-geun Oh†, Doohee Cho, Se Young Park, and Jun-Won Rhim†[30] Communications Physics 5, 195 (2022)
Geometric origin of intrinsic spin Hall effect in an inhomogeneous electric field
Anwei Zhang† and Jun-Won Rhim†[29] APL Photonics 6, 116104 (2021)
Fractal-like photonic lattices and localized states arising from singular and nonsingular flatbands
Yuqing Xie, Limin Song, Wenchao Yan, Shiqi Xia, Liqin Tang, Daohong Song, Jun-Won Rhim, and Zhigang Chen[28] Nature Communications 12, 6433 (2021)
Geometric characterization of anomalous Landau levels of isolated flat bands
Yoonseok Hwang, Jun-Won Rhim†, and Bohm-Jung Yang†[27] Phys. Rev. B 104, 085144 (2021)
General construction of flat bands with and without band crossings based on the wave function singularity
Yoonseok Hwang, Jun-Won Rhim, and Bohm-Jung Yang[26] Phys. Rev. B 104, L081104 (2021) Letter
Flat bands with band crossings enforced by symmetry representation
Yoonseok Hwang, Jun-Won Rhim, and Bohm-Jung Yang[25] Phys. Rev. B 103, L241102 (2021) Letter
Wave function geometry of band crossing points in two-dimensions
Yoonseok Hwang, Junseo Jung, Jun-Won Rhim, and Bohm-Jung Yang[23] Nature 584, 59 (2020)
Quantum Distance and Anomalous Landau Levels of Flat Bands
Jun-Won Rhim, Kyoo Kim, and Bohm-Jung Yang[22] Phys. Rev. Lett. 124, 183901 (2020)
Direct Observation of Flatband Loop States Arising from Nontrivial Real-Space Topology
Jina Ma*, Jun-Won Rhim*, Liqin Tang, Shiqi Xia, Haiping Wang, Xiuyan Zheng, Shiqiang Xia, Daohong Song, Yi Hu, Yigang Li, Bohm-Jung Yang, Daniel Leykam, Zhigang Chen[21] Phys. Rev. B 101, 045401 (2020)
Perfect transmission and Aharanov-Bohm oscillations in topological insulator nanowires with nonuniform cross section
Emmanouil Xypakis, Jun-Won Rhim, Jens H. Bardarson, and Roni Ilan[20] J. Phys. Soc. Jpn. 88 124705 (2019)
Giant Rashba-Type Spin Splitting in Bi/Ag(111) from Asymmetric Interatomic-Hopping
Jisook Hong, Jun-Won Rhim, Inkyung Song, Changyoung Kim, Seung Ryong Park, and Ji Hoon Shim[19] Phys. Rev. B 99, 045107 (2019)
Classification of flat bands according to the band-crossing singularities of Bloch wave functions
Jun-Won Rhim, and Bohm-Jung Yang[18] Phys. Rev. B 97, 115143 (2018)
Unified bulk-boundary correspondence for band insulators
Jun-Won Rhim, Jens H. Bardarson, and Robert-Jan Slager[17] Phys. Rev. B 96, 245101 (2017) Editors' Suggestion
Nodal-line semimetals from Weyl superlattices
Jan Behrends, Jun-Won Rhim, Shang Liu, Adolfo G. Grushin, and Jens H. Bardarson[16] Phys. Rev. B 95, 035421 (2017)
Bulk-boundary correspondence from the intercellular Zak phase
Jun-Won Rhim, Jan Behrends, Jens H. Bardarson[15] Sci. Rep. 6, 36389 (2016)
Determination of the band parameters of bulk 2H-MX2 (M = Mo, W; X = S, Se) by angle-resolved photoemission spectroscopy
Beom Seo Kim, Jun-Won Rhim†, Beomyoung Kim, Changyoung Kim, and Seung Ryong Park†[14] New J. Phys. 18, 043010 (2016)
Anisotropic density fluctuations, plasmons, and Friedel oscillations in nodal line semimetal
Jun-Won Rhim and Yong Baek Kim[13] Phys. Rev. B 92, 121103 (2015) Rapid Communication
Analytical Theory of Strongly Correlated Wigner Crystals in the Lowest Landau Level
Jun Won Rhim, Jainendra K Jain, Kwon Park[12] Phys. Rev. B 92, 045126 (2015)
Landau Level Quantization and Almost Flat Modes in Three-dimensional Semi-metals with Nodal Ring Spectra
Jun-Won Rhim and Yong Baek Kim[11] Sci. Rep. 5, 13488 (2015)
Quantitative analysis on electric dipole energy in Rashba band splitting
Jisook Hong, Jun-Won Rhim, Changyoung Kim, Seung Ryong Park, Ji Hoon Shim[10] Chapter. 20 of the book "Chemical Functionalization of Carbon Nanomaterials: Chemistry and Applications" (2015)
Quantum spin Hall effect in edge-functionalized graphene nanoribbon
Jun-Won Rhim and Kyungsun Moon[9] Phys. Rev. B 91, 115124 (2015)
Quantum oscillations in the Luttinger model with quadratic band touching: Applications to pyrochlore iridates
Jun-Won Rhim and Yong Baek Kim[8] Phys. Status Solidi B 252, 339 (2014)
Intrinsic half‐metallicity of the Stone–Wales edge reconstructed graphene nanoribbons
Suk‐Young Park, Kyungsun Moon and Jun‐Won Rhim[7] Int. J. Mod. Phys. B 27, 1362011 (2013)
Edge Magnetism and Quantum Spin Hall Effect in Zigzag Graphene Nanoribbon
Jun-Won Rhim and Kyungsun Moon[6] J. Phys. Soc. Jpn. 82, 104704 (2013)
Emergent p-Wave Kondo Coupling in Multi-Orbital Bands with Mirror Symmetry Breaking
Jun -Won Rhim and Jung Hoon Han[5] Phys. Rev. B 86, 235411 (2012)
Self-similar occurrence of massless Dirac particles in graphene under a magnetic field
Jun-Won Rhim and Kwon Park[4] Phys. Rev. B 85, 195401 (2012)
Orbital Rashba effect and its detection by circular dichroism angle-resolved photoemission spectroscopy
Jin-Hong Park, Choong H. Kim, Jun-Won Rhim, and Jung Hoon Han[3] Phys. Rev. B 84, 035402 (2011)
Quantum spin Hall effect in graphene nanoribbons: Effect of edge geometry
Jun-Won Rhim and Kyungsun Moon[2] Phys. Rev. B 80, 155441 (2009)
Spin stiffness of graphene and zigzag graphene nanoribbons
Jun-Won Rhim and Kyungsun Moon[1] J. Phys.: Condens. Matter 20, 365202 (2008)
Edge states of zigzag bilayer graphite nanoribbons
Jun-Won Rhim and Kyungsun Moon