Young‐Mi Bahk

1.6k total citations
51 papers, 1.2k citations indexed

About

Young‐Mi Bahk is a scholar working on Biomedical Engineering, Electrical and Electronic Engineering and Atomic and Molecular Physics, and Optics. According to data from OpenAlex, Young‐Mi Bahk has authored 51 papers receiving a total of 1.2k indexed citations (citations by other indexed papers that have themselves been cited), including 41 papers in Biomedical Engineering, 37 papers in Electrical and Electronic Engineering and 19 papers in Atomic and Molecular Physics, and Optics. Recurrent topics in Young‐Mi Bahk's work include Plasmonic and Surface Plasmon Research (37 papers), Terahertz technology and applications (21 papers) and Photonic and Optical Devices (15 papers). Young‐Mi Bahk is often cited by papers focused on Plasmonic and Surface Plasmon Research (37 papers), Terahertz technology and applications (21 papers) and Photonic and Optical Devices (15 papers). Young‐Mi Bahk collaborates with scholars based in South Korea, United States and Spain. Young‐Mi Bahk's co-authors include Dai‐Sik Kim, Kwang Jun Ahn, Sanghoon Han, Namkyoo Park, Geunchang Choi, Hyeong‐Ryeol Park, Jiyeah Rhie, Taehee Kang, Young‐Gyun Jeong and Dai‐Sik Kim and has published in prestigious journals such as Physical Review Letters, SHILAP Revista de lepidopterología and Nano Letters.

In The Last Decade

Young‐Mi Bahk

49 papers receiving 1.2k citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Young‐Mi Bahk South Korea 19 745 741 516 324 189 51 1.2k
Hyeong‐Ryeol Park South Korea 14 579 0.8× 437 0.6× 413 0.8× 207 0.6× 117 0.6× 34 881
Hyeong‐Ryeol Park South Korea 9 484 0.6× 511 0.7× 333 0.6× 222 0.7× 72 0.4× 11 763
S. J. Park South Korea 17 867 1.2× 629 0.8× 513 1.0× 161 0.5× 157 0.8× 42 1.2k
Andreas Huber Germany 11 469 0.6× 806 1.1× 247 0.5× 392 1.2× 296 1.6× 18 1.1k
Goran Isić Serbia 14 424 0.6× 465 0.6× 657 1.3× 415 1.3× 108 0.6× 46 1.0k
Kay Dietrich Germany 9 275 0.4× 330 0.4× 291 0.6× 222 0.7× 93 0.5× 15 692
Mustafa Karabiyik United States 14 417 0.6× 360 0.5× 270 0.5× 174 0.5× 232 1.2× 44 717
Jens Dorfmüller Germany 16 450 0.6× 1.2k 1.6× 837 1.6× 466 1.4× 148 0.8× 18 1.4k
Justin W. Cleary United States 15 347 0.5× 414 0.6× 298 0.6× 210 0.6× 106 0.6× 58 708
Alessio Benedetti Italy 15 174 0.2× 554 0.7× 625 1.2× 340 1.0× 114 0.6× 39 908

Countries citing papers authored by Young‐Mi Bahk

Since Specialization
Citations

This map shows the geographic impact of Young‐Mi Bahk's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Young‐Mi Bahk with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Young‐Mi Bahk more than expected).

Fields of papers citing papers by Young‐Mi Bahk

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Young‐Mi Bahk. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Young‐Mi Bahk. The network helps show where Young‐Mi Bahk may publish in the future.

Co-authorship network of co-authors of Young‐Mi Bahk

This figure shows the co-authorship network connecting the top 25 collaborators of Young‐Mi Bahk. A scholar is included among the top collaborators of Young‐Mi Bahk based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Young‐Mi Bahk. Young‐Mi Bahk is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Ahn, J., Kwang Jun Ahn, Young‐Mi Bahk, et al.. (2025). Beyond limits: a tribute to Dai‐Sik Kim’s academic legacy and vision. Nanophotonics. 14(25). 4463–4478.
2.
Kim, Taehoon, et al.. (2024). Optical Tweezing Terahertz Probing for a Single Metal Nanoparticle. Nano Letters. 24(22). 6753–6760. 3 indexed citations
3.
Kim, Dongil, Jae Woo Kim, Hayoung Ko, et al.. (2024). Continuous Template Growth of Large-Scale Tellurene Films on 1T′-MoTe2. ACS Nano. 18(29). 18992–19002. 5 indexed citations
4.
Kim, Taehoon, et al.. (2024). In-depth study for confinement of electromagnetic wave in a coupled terahertz nano-slot antenna. Journal of the Korean Physical Society. 85(4). 286–291. 1 indexed citations
5.
6.
Choi, Geunchang, et al.. (2023). Terahertz conductivity of high-quality indium films deposited using a substrate cooling method. Current Applied Physics. 52. 80–84. 2 indexed citations
7.
Bahk, Young‐Mi, Kyoung‐Ho Kim, Kwang Jun Ahn, & Hyeong‐Ryeol Park. (2023). Recent Developments in Terahertz Nanosensors. SHILAP Revista de lepidopterología. 5(1). 11 indexed citations
8.
Kim, Dasom, Jiyeah Rhie, Parinda Vasa, et al.. (2021). Topology-Changing Broadband Metamaterials Enabled by Closable Nanotrenches. Nano Letters. 21(10). 4202–4208. 26 indexed citations
9.
Rhie, Jiyeah, et al.. (2021). Twofold Plasmonic Resonator Based on Polyethylene Terephthalate Thin Films for Terahertz Sensing Applications. ACS Applied Nano Materials. 4(9). 8753–8760. 9 indexed citations
10.
Kim, Hyun-Tae, et al.. (2021). Biochar as a low-cost, eco-friendly, and electrically conductive material for terahertz applications. Scientific Reports. 11(1). 18498–18498. 18 indexed citations
11.
Lee, You‐Jin, Dasom Kim, Jeeyoon Jeong, et al.. (2019). Enhanced terahertz conductivity in ultra-thin gold film deposited onto (3-mercaptopropyl) trimethoxysilane (MPTMS)-coated Si substrates. Scientific Reports. 9(1). 15025–15025. 7 indexed citations
12.
Kim, Sunghwan, Young‐Mi Bahk, Dasom Kim, et al.. (2019). Fabrication of vertical van der Waals gap array using single-and multi-layer graphene. Nanotechnology. 31(3). 35304–35304. 5 indexed citations
13.
Choi, Geunchang, Sung Ju Hong, & Young‐Mi Bahk. (2019). Graphene-assisted biosensing based on terahertz nanoslot antennas. Scientific Reports. 9(1). 9749–9749. 15 indexed citations
14.
Chun, Sae Hwan, Hyung Joon Kim, Seonghoon Jung, et al.. (2018). Electromagnon with Sensitive Terahertz Magnetochromism in a Room-Temperature Magnetoelectric Hexaferrite. Physical Review Letters. 120(2). 27202–27202. 24 indexed citations
15.
Choi, Geunchang, Young‐Mi Bahk, Taehee Kang, et al.. (2017). Terahertz Nanoprobing of Semiconductor Surface Dynamics. Nano Letters. 17(10). 6397–6401. 34 indexed citations
16.
Jeong, Jeeyoon, Dasom Kim, Hyeong‐Ryeol Park, et al.. (2017). Anomalous extinction in index‐matched terahertz nanogaps. Nanophotonics. 7(1). 347–354. 21 indexed citations
17.
Kang, Bong Joo, Young‐Mi Bahk, Yong Seung Kim, et al.. (2016). Tunnelling current-voltage characteristics of Angstrom gaps measured with terahertz time-domain spectroscopy. Scientific Reports. 6(1). 29103–29103. 20 indexed citations
18.
Bahk, Young‐Mi, Bong Joo Kang, Yong Seung Kim, et al.. (2015). Electromagnetic Saturation of Angstrom-Sized Quantum Barriers at Terahertz Frequencies. Physical Review Letters. 115(12). 125501–125501. 58 indexed citations
19.
Bahk, Young‐Mi, Jae-Wook Choi, Jisoo Kyoung, et al.. (2012). Selective enhanced resonances of two asymmetric terahertz nano resonators. Optics Express. 20(23). 25644–25644. 14 indexed citations
20.
Bahk, Young‐Mi, H. R. Park, Kwangjun Ahn, et al.. (2011). Anomalous Band Formation in Arrays of Terahertz Nanoresonators. Physical Review Letters. 106(1). 13902–13902. 27 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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