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직위(직급): 부교수

전화번호: 7376

전공: 응집물질물리이론(중시물리, 수송이론, 나노소자), 양자정보과학이론(양자센싱)

연구실: Office : 자연과학관 4516호, Lab : 중시계물리연구실(4515호) & LAMP Postdoc 연구실(4209호)

학위

이학박사

담당과목

역학교육1/2, 수리물리학, 과학수학, 물리수학, 반도체물리학, 고체물리학

학력 및 경력

2002.3-2008.8 충남대학교 물리학과 (이학사)
2009.3-2011.2 충남대학교 대학원 물리학과 (이학석사)
2011.3-2013.8 충남대학교 대학원 물리학과 (이학박사)
2010.8-2014.2 충남대학교 물리학과 강의 (시간강사)
2013.9-2014.1 충남대학교 부설 양자제어물성연구소 박사후연구원
2014.2-2016.3 박사후연구원, Department of Matersials Science and Engineering, University of Ioannina (EU Graphene Flagship participant)
2016.4-2017.8 기초과학연구원, 복잡계이론물리연구단, 연구위원
2017.9-2022.2 조선대학교 사범대학 물리교육과 조교수
2022.3-현재 조선대학교 사범대학 물리교육과 부교수

학회 활동

한국양자정보학회, 한국물리학회, 한국그래핀학회, 양자나노소자연구회, 중시계물리연구회, 미국물리학회

학술 논문

- preprints
[1] Neural network-based recognition of multiple nanobubbles in graphene, S. Kim, N. Myoung, S. Jun, and A. Go, arXiv:2404.15658
[2] Nanowrinkle Waveguide in Graphene for Enabling Secure Dirac Fermion Transport, S. Jun, M.-C. Jung, N. Myoung, arXiv:2407.20148

-published papers
[38] Detecting Strain Effects Due to Nanobubbles in Graphene Mach-Zehnder Interferometers, N. Myoung, T. Song, and H. C. Park, accepted to Physica Status Solidi (b), 261, 2300379 (2024)
[37] Role of Quantum Capacitance in a Carbon Nanotube Tunneling Device, W.-S. Kim, N. Myoung, M. Bae, and J. Kim, ACS Applied Electronic Materials, 6, 3474-3479 (2024)
[36] Strain-Induced Flat Bands in Hexagonal Quantum Dot Networks of Graphene Nanoribbons with Nanobubbles, H. C. Park and N. Myoung, Journal of the Korean Physical Society 83, 692-699 (2023)
[35] A strain-engineered graphene qubit in a nanobubble, H. C. Park, J. Han, and N. Myoung, Quantum Sci. Technol. 8, 025012 (2023)
[34] Electronic Mach-Zehnder interference in a bipolar hybrid monolayer-bilayer graphene junction, M. Mirzakhani, N. Myoung, and H. C. Park, Carbon 201, 734-744 (2023)
[33] Thermionic graphene/silicon Schottky infrared photodetectors, S. Doukas et al., Phys. Rev. B 105, 115417 (2022)
[32] Strain-effect transistor with Y-shaped graphene junctions, N. Myoung, J. Kor. Phys. Soc. 80, 490 (2022)
[31] Robust Quantum Oscillation of Dirac Fermions in a Single-Defect Resonant Transistor, S. Zheng. Y. Joo, M. Zhao, K. Kang, K. Watanabe, T. Taniguchi, N. Myoung et al., ACS Nano 15, 20013 (2021)
[30] Machine learning approach to the recognition of nanobubbles in graphene, T. Song, N. Myoung, H. Lee, H. C. Park, Applied Physics Letters 119, 193013 (2021)
[29] Topological edge states in bowtie ladders with different cutting edges, J.-W. Ryu, S. Woo, N. Myoung, H. C. Park, Physica E 137, 144941 (2022)
[28] Non-orientability induced PT phase transition in ladder lattices, J.-W. Ryu, N. Myoung, M. Hentschel, and H. C. Park, Phys. Rev. A 103, 042207 (2021)
[27]Helical edge states around mass-inverted quantum dot in graphene, N. Myoung, Current Applied Physics, 23, 57-61 (20201/li>
[26]Emergent localized states at the interface of a twofold PT-symmetric lattice, J.-W. Ryu, N. Myoung, S. Woo, A. Go, S. Choi, and H. C. Park, Phyiscal Review Research, 2, 033149 (2020)
[25]Resonant tunneling spectroscopy to probe the giant Stark effect in atomically-thin materials, Adv. Mater. S. Zheng, et al., Advanced Materials 32, 1906942 (2020)
[24]Influence of Coupling Strength Between a Magnetic Quantum Dot and Quantum Hall Edge Channels on Valley-isospin-dependent Dirac Fermion Transport, J. Jeon, M. Son, N. Myoung, Journal of the Korean Physical Society, 76, 318-322 (2020)
[23]Manipulation of Valley Isospin in Strained Graphene for Valleytronics, N. Myoung, H. Choi, and H. C. Park., Carbon 157, 578 (2020)
[22]Electronic and Optical Properties of Staggered ZnO/ZnO1−xSx-ZnO1−ySy/ZnO Quantum Wells for Bluish-Green Light-Emitting Diodes, V. K. Magotra, H. C. Jeon, S. Kumar, T. W. Kang, S. J. Lee, S. H. Park, and N. Myoung, Journal of the Korean Physical Society 75, 899 (2019)
[21]Splitting of conductance resonance through a magnetic quantum dot in graphene, N. Myoung et al., Physical Review B 100, 045427 (2019)
[20]Flat-band localization and self-collimation of light in photonic crystals, N. Myoung, et al., Scientific Reports 9, 2862 (2019)
[19]Gate-Tunable Thermoelectric Effects in Graphene/WS2 Van der Waals Heterostructures, J. Kor. Phys. Soc. 73, 940 (2018).
[18]Quantum transport and non-Hermiticity on flat-bands lattices, J. Low Temp. Phys. 191, 49 (2018)
[17]Conductance oscillations in Chern insulator junctions: valley-isospin dependence and Aharonov-Bohm effects, PRB 96, 235435 (2017)
[16]Energy spectrum of magnetic quantum dot in graphene, N. Myoung and G. Ihm, New Phys.:Sea-mulli 69, 1174-1179 (2017)
[15]Gas molecule sensing of van der Waals tunnel field effect transistors, H. Choi, J. Park, N. Myoung at. al, Nanoscale, 9, 18644-18650 (2017)
[14]Antiresonance induced by symmetry-broken contacts in quasi-one-dimensional lattices, J.-W. Ryu, N. Myoung, and H. C. Park 96, 125421 (2017)
[13]Reconfiguration of quantum states in PT-symmetric quasi-one-dimensional lattices, J.-W. Ryu, N. Myoung, and H. C. Park, Scientific Reports 7, 8746 (2017)
[12]Direct Probing of the Electronic Structures of Single-Layer and Bilayer Graphene with a Hexagonal Boron Nitride Tunneling Barrier, S. Jung, N. Myoung et. al Nano Letters 17, 206-213 (2016)
[11]Gate-Tunable Spin Transport and Giant Electroresistance in Ferromagnetic Graphene Vertical Heterostructures, N. Myoung, H. C. Park, and S. J. Lee, Scientific Reports 6, 25253 (2016)
[10]Finite-temperature effects on conductance modulation by local doping in graphene with multiple magnetic barriers, N. Myoung and E. Lidorikis, 2D Materials 2, 045007 (2015)
[9]Gate-tunable valley-filter based on suspended graphene with double magnetic barrier structures, N. Myoung and G. Ihm, Current Applied Physics 14, 1455-1459 (2014)
[8]Fano resonance in electronic transport induced by the magnetic confinement in a graphene nanoribbon, N. Myoung, G. Ihm, K. Seo, Curret Applied Physics 13, 1335-1338 (2013)
[7]Large Current Modulation and Spin-Dependent Tunneling of Vertical Graphene/MoS2 Heterostructures, N. Myoung, K. Seo, S. J. lee, and G. Ihm, ACS Nano 7, 7021–7027 (2013)
[6]Demonstration of magnetic confinement in graphene with Fano-type resonances, N. Myoung, K. Seo, and G. Ihm, Journal of Korean Physical Society 62, 275–283 (2013)
[5]Spin-filtering effect in graphene with double magnetic barrier structures, N. Myoung and G. Ihm, Journal of Korean Physical Society 59, 2275-2279 (2011)
[4]Magnetically induced waveguide in graphene, N. Myoung and G. Ihm, Physical Review B 83, 113407 (2011)
[3]Spin-dependent transport and spin-switching effect in graphene with magnetoelectric modulations, N. Myoung and G. Ihm, Journal of Applied Physics 109, 053716 (2011)
[2]Transport in armchair graphene nanoribbons modulated by magnetic barriers, N. Myoung and G. Ihm, Physica E 42, 2808-2811 (2010)
[1]Tunneling of Dirac fermions through magnetic barriers in graphene, N. Myoung and G. Ihm, Physica E 42, 70-72 (2009)

저서

보고서

수상

연구수행

-수행중과제
한국연구재단 과학기술분야 기초연구사업 기본연구(그래핀 밸리 큐비트)
한국연구재단 원천기술개발사업 양자정보과학 인적기반 조성사업(하이브리드 양자 시스템)
한국연구재단 과학기술분야 기초연구사업 LAMP사업(생체적합 그래핀 소재)
-종료과제
한국연구재단 과학기술분야 기초연구사업 생애첫연구(양자홀 그래핀 간섭계),
한국연구재단 과학기술분야 기초연구사업 기본연구(스트레인 그래핀 양자점)

연구분야

Graphene Straintronics for Quantum Dots and Quantum Interferometry

Mesoscopic Transport in Low-Diemensional Electronic Systems

Topological Phenomena in Condensed Matters and Photonics

연구과제

2017~2019 생애첫연구 (한국연구재단, 과학기술정보통신부)
2019~2022 기본연구 (한국연구재단, 과학기술정보통신부)
2022~ 양자정보과학 인전기반 조성사업 (한국연구재단, 과학기술정보통신부)
2022~ 기본연구 (한국연구재단, 과학기술정보통신부)
2023~ G-LAMP사업 (한국연구재단, 교육부)