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Novel Topological Devices
This field of research is motivated by the potential of topological materials to exhibit robust and quantized electronic properties that are insensitive to disorder and other perturbations, making them promising candidates for the development of next-generation electronics and quantum technologies. Examples of topological devices that have been proposed or demonstrated include topological insulator-based field-effect transistors, topological superconductor-based qubits for quantum computing, and topological photonic crystals for the manipulation of light at the nanoscale.
Bloch Theorem Dictated Wave Chaos in Microcavity Crystals
Chang-Hwan Yi, Hee Chul Park, Moon Jip Park
Light: Science & Applications 12, 106 (2023)
Strong Interlayer Coupling and Stable Topological Flat Bands in Twisted Bilayer Photonic Moiré Superlattices
Chang-Hwan Yi, Hee Chul Park, Moon Jip Park
Light: Science & Applications 11, 289 (2022)
Performance of Topological Insulator Interconnects
Timothy M. Philip, Mark R. Hirsbrunner, Moon Jip Park, Matthew J. Gilbert
IEEE Electron Device Letters, (2017).
(논문 커버)
Experimental collaborations
Finite momentum Cooper pairing in 3D topological insulator Josephson junctions
Angela Chen, Moon Jip Park, Stephen T. Gill, Yiran Xiao, Gregory J. MacDougall, Matthew J. Gilbert, Nadya Mason
Nature Communications 9, 3478 (2018) (co-first author).
Hierarchical zero- and one-dimensional topological states in symmetry-controllable grain boundary
Won-Jun Jang, Heeyoon Noh, Seoung-Hun Kang, Wonhee Ko, JiYeon Ku, Moon Jip Park*, Hyo Won Kim*
Nature Communications 15:9328 (2024)
(언론보도)
Realization of Non-Hermitian Hopf Bundle Matter
Yung Kim, Hee Chul Park, Minwook Kyung, Kyungmin Lee, Jung-Wan Ryu, Oubo You, Shuang Zhang, Bumki Min, Moon Jip Park
Communications Physics 6, 273 (2023)
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