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Journal Publications 


[37] "Quantum dots for photonic quantum information technology",  T. Heindel, J.-H. Kim, N. Gregersen, A. Rastelli, and S. Reitzenstein*, Advances in Optics and Photonics  15,  613 (2023) 


[36] "Room-temperature continuous-wave indirect-bandgap transition lasing in an ultra-thin WS2 disk",  J. Sung, D. Shin, H. H. Cho, S. W. Lee, S. Park, Y. D. Kim, J. S. Moon, J.-H. Kim, and Su-Hyun Gong*, Nature Photonics 16, 792 (2022)

[35] "Plug-and-play single-photon devices with efficient fiber-quantum dot interface",  W. B. Jeon, J. S. Moon, K.-Y. Kim, Y.-H. Ko, C. J. K. Richardson, E. Waks, J.-H. Kim*, Adv. Quantum. Technol. 2200022 (2022)

[34] "InAsP Quantum Dot-Embedded InP Nanowires toward Silicon Photonic Applications",  T.-Y. Chang, H.  Kim,* W.  A. Hubbard, K. M. Azizur-Rahman, J. J. Ju, J.-H. Kim, W.-J. Lee,* and D. Huffaker, ACS Appl. Mater.& Inter. 14, 12488 (2022)


[33] "Strong zero-phonon transition from point defect-stacking fault complexes in silicon carbide

nanowires",  J. H. Lee, W.  B. Jeon, J. S. Moon, J. Lee, S.-W. Han, Z. Bodrog, A. Gali, S.-Y. Lee, and J.-H. Kim*, Nano Letters 21, 9187 (2021)

[32] "Temporal shaping of single photons by engineering exciton dynamics in a single quantum dot",  K.-Y. Kim, C. J. K. Richardson, E. Waks, and J.-H. Kim*, APL Photonics 6, 080801 (2021)

[31] "High resolution, High contrast optical interface for defect qubits",  J. S. Moon, H. Lee, J. H. Lee, W. B. Jeon, D. Lee, J. Lee, S. Paik, S.-W. Han, R. Reuter, A. Denisenko, J. Wrachtrup, S.-Y. Lee, and J.-H Kim*, ACS Photonics 8, 2642 (2021)

[30] "High-Crystalline Monolayer Transition Metal Dichalcogenides Films for Wafer-Scale Electronics", M. Kim, J. Seo, J. Kim, J. S. Moon, J. Lee, J.-H. Kim, J. Kang*, and H. Park*, ACS Nano 15, 3038 (2021)


[29] "Optical Repumping of Resonantly Excited Quantum Emitters in Hexagonal Boron Nitride", S. J.U. White, N. Duong, A. S. Solntsev, J.-H. Kim, M. Kianinia, and I. Aharonovich, Phys. Rev. Applied 14, 044017 (2020)

[28] "Hybrid integration methods for on-chip quantum photonics", J.‐H. Kim*, S. Aghaeimebodi, J. Carolan, D. Englund, and E. Waks, Optica 7, 291 (2020) -2021 Selected as a top downloaded paper in two research fields of “Integrated photonics” and “Quantum Information” & Selected "2020-2021 Top-cited paper" in Optica


[27] "Position and frequency control of strain-induced quantum emitters in WSe2 monolayers", H. Kim, J. S. Moon, G. Noh, J. Lee, and J.-H. Kim*, Nano Letters 19, 7534 (2019) 

[26] “A silicon photonic add-drop filter for quantum emitters”, S. Aghaeimeibodi, J.-H. Kim,  C.-M. Lee,  M. A. Buyukkaya,  C. Richardson, and E. Waks*, Opt. Exp. 27, 16882 (2019)

[25] “Origin of spectral brightness variations in InAs/InP quantum dot telecom single photon emitters”, C. J. K. Richardson*, R. P. LeavittJ.-H. KimE. WaksI. Arslan, and B. Arey, J. Vac. Sci.Technol B. PAULH2019, 011202 (2019)

[24] “Direct Transfer of Light's Orbital Angular Momentum onto Non-resonantly Excited Polariton Superfluid”, B. Y. Oh, M.-S. Kwon, S.-H. Gong, J.-H. Kim, H. K. Kang, S. Kang, J. D. Song, H. Choi*, and Y.-H. Cho*, Phys. Rev. Lett. 122, 045302 (2019)


[23] "Integration of quantum dots with lithium niobate photonics", S. Aghaeimeibodi, B. Desiatov, J.-H. Kim, C.-M. Lee, M. A. Buyukkaya, A. Karasahin, C. J. K. Richardson, R. P. Leavitt, M. Lončar, and E. Waks*, Appl. Phys. Lett. 113, 221102 (2018)


[22] “Super-radiant emission from quantum dots in a nanophotonic waveguide”, J.-H. Kim*, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, and E. Waks*,  Nano Letters, 18,  4734 (2018)

[21] “Radiative enhancement of single quantum emitters in WSe2 monolayers using site-controlled metallic nano-pillars”, T. Cai, J.-H. Kim, Z. Yang, S. Dutta, S. Aghaeimeibodi, and E. Waks*, ACS Photonics, 5, 3466 (2018)

[20] “Active Control of Photon Recycling for Tunable Optoelectronic Materials”, Y. Xu, E. M. Tennyson, J.-H. Kim, S. Barik,
J. Murray, E. Waks, M. S. Leite, J. N. Munday*, Adv. Opt. Materials, 6, 1701323 (2018) 

[19] “Site-Selective, Two-Photon Plasmonic Nanofocusing on a Single Quantum Dot for Near-Room-Temperature Operation”, S.-H. Gong, S. Kim, J.-H. Kim, J.-H. Cho, and  Y.-H. Cho*, ACS Photonics, 5, 711 (2018) 


[18] “Hybrid integration of solid-state quantum emitters on a silicon photonic chip”, J.-H. Kim*, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, D. Englund, and E. Waks*, Nano Letters, 17, 7394 (2017) - introduced in "Nature Photonics Research Highlight" [doi:10.1038/s41566-017-0082-3]

[17] “Near-infrared emission from defect states in few-layer phosphorene”, S. Aghaeimeibodi, J.-H. Kim, E.

Waks*, arXiv:1706.10189 (2017)

[16] “Two-photon interference from the far-field emission of chip-integrated cavity-coupled emitters”, J.-H. Kim, C. J. K. Richardson, R. P. Leavitt, and E. Waks*, Nano Letters, 16, 7061 (2016)

[15] “Two-photon interference from a bright single-photon source at telecom wavelengths”, J.-H. Kim, T. Cai, C. J. K. Richardson, R. P. Leavitt, and E. Waks*, Optica, 3, 577 (2016)

[14] “Self-aligned deterministic coupling of single quantum emitter to nanofocused plasmonic Modes”, S.-H. Gong, J.-H. Kim, Y.-H. Ko, C. Rodriguez, J. Shin, Y.-H. Lee, L. S. Dang, X. Zhang, and Y.-H. Cho*, Proc. Natl. Acad. Sci., 112, 5280 (2015)

[13] “Red color emitting InGaN/GaN double heterostructures on GaN nano-pyramid structures”, Y.-H. Ko, J.-H. Kim, S.-H. Gong, J. Kim, T. Kim, Y.-H. Cho*, ACS Photonics, 2, 515 (2015) 

[12] “Toward highly radiative white light emitting nanostructures: a new approach for dislocation- and polarization fields-eliminated GaN/InGaN core-shell nanostructures”, J.-H. Kim, Y. H. Ko, S. H. Gong, S. M. Ko, and Y.-H. Cho*, Nanoscale, 6, 14213 (2014)

[11] “Stark effect in ensembles of polar (0001) Al0.5Ga0.5N/GaN quantum dots and comparison with semipolar (11-22) ones”, J. Brault, A. Kahouli, D. Maghraoui, B. Damilano, P. de Mierry, M. Korytov, M. Leroux, J. -H. Kim, and Y.-H. Cho*, Journal of Applied Physics, 116, 034308 (2014)

[10] “Strain- and surface-induced modification of photoluminescence from self-assembled GaN/Al0.5Ga0.5N quantum dots: strong effect of capping layer and atmospheric condition”, J.-H. Kim, D. Elmaghraoui, M. Korytov, M. Leroux, P. Vennéguès, S. Jaziri, J. Brault, and Y.-H. Cho*, Nanotechnology, 25, 305703 (2014)

[9] “Ultrafast single photon emitting quantum photonic structures based on a nano-obelisk”, J.-H. Kim, Y. H. Ko, S. H. Gong, S. M. Ko, and Y.-H. Cho*, Scientific Reports, 3, 2150 (2013)

[8] “Facile synthetic method for pristine graphene quantum dots and graphene oxide quantum dots: origin of blue and green luminescence”, F. Liu, M. H. Jang, H. D. Ha, J.-H. Kim, Y. H. Cho*, and T. S. Seo*, Advanced Materials, 25, 3657 (2013) 

[7] “Graphene oxide/N-methyl-2-pyrrolidone charge-transfer complexes for molecular detection”, G. Q. Xin, S. H. Gong, N. H. Kim, J.-H. Kim, W. T. Hwang, J. W. Nam, Y.-H. Cho, S. M. Cho, H. Y. Chae*, Sensors and Actuators B: Chemical, 176, 81 (2013)

[6] "Structural and photoluminescence studies of highly crystaline un-annealed ZnO nanorods arrays synthesized by hydrohtermal technique", A. Gokarna, J.-H. Kim, F. Leroy, G. Partriarche, P. Roussel, Z. Bougrioua, C. Rodriguez, E. Dogheche, and Y. H. Cho*, Journal of Luminescence, 144, 234 (2013)

[5] “Photoexcitations from intrachain and interchain excitons of surface plasmon mediated conjugated polymers for PLED”, K. H. Cho, K. C. Choi, J.-H. Kim, and Y.-H. Cho*, IEEE/OSA Journal of Display Technology, 8, 439 (2012)

[4] “Growth mechanism of catalyst-free and mask-free heteroepitaxial GaN submicrometer- and micrometer-sized rods under biaxial strain: variation of surface energy and adatom kinetics”, S.-M. Ko, J.-H. Kim, Y.-H. Ko, Y. H. Chang, Y. H. Kim, J. M. Yoon, J. Y. Lee, and Y.-H. Cho*, Crystal Growth & Design, 12, 3838 (2012)

[3] “Dislocation-eliminating chemical control method for high-efficiency GaN-based light emitting nanostructures”, J.-H. Kim, C. S. Oh, Y.-H. Ko, S.-M. Ko, K.-Y. Park, M. Jeong, J. Y. Lee, and Y.-H. Cho*, Crystal Growth & Design, 12, 1292 (2012)

[2] “Electrically driven quantum dot/wire/well hybrid light-emitting diodes”, Y.-H. Ko, J.-H. Kim, L.-H. Jin, S.-M. Ko, B.-J. Kwon, J. Kim, T. Kim, and Y.-H. Cho*, Advanced Materials, 23, 5364 (2011) 

[1] “Carrier transfer and recombination dynamics of long-lived and broad band emission from multi-stacked GaN/AlGaN quantum dots”, J.-H. Kim, B.-J. Kwon Y. -H. Cho*, T. Huault, M. Leroux, and J. Brault, Applied Physics Letter, 97, 061905 (2010)

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