Jiwei Qi

1.6k total citations
54 papers, 591 citations indexed

About

Jiwei Qi is a scholar working on Atomic and Molecular Physics, and Optics, Electrical and Electronic Engineering and Biomedical Engineering. According to data from OpenAlex, Jiwei Qi has authored 54 papers receiving a total of 591 indexed citations (citations by other indexed papers that have themselves been cited), including 27 papers in Atomic and Molecular Physics, and Optics, 27 papers in Electrical and Electronic Engineering and 23 papers in Biomedical Engineering. Recurrent topics in Jiwei Qi's work include Photonic and Optical Devices (21 papers), Plasmonic and Surface Plasmon Research (19 papers) and Photonic Crystals and Applications (12 papers). Jiwei Qi is often cited by papers focused on Photonic and Optical Devices (21 papers), Plasmonic and Surface Plasmon Research (19 papers) and Photonic Crystals and Applications (12 papers). Jiwei Qi collaborates with scholars based in China, Russia and United States. Jiwei Qi's co-authors include Qiang Wu, Qian Sun, Yudong Li, Jingjun Xu, Jingjun Xu, Zongqiang Chen, Jing Chen, Yao Lu, Ride Wang and Hao Xiong and has published in prestigious journals such as Applied Physics Letters, Journal of Applied Physics and Scientific Reports.

In The Last Decade

Jiwei Qi

50 papers receiving 541 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Jiwei Qi China 13 348 333 273 204 57 54 591
Hemmel Amrania United Kingdom 9 170 0.5× 279 0.8× 218 0.8× 194 1.0× 60 1.1× 13 473
Ryan M. Gelfand United States 13 339 1.0× 316 0.9× 267 1.0× 106 0.5× 129 2.3× 28 606
Luojia Wang China 13 230 0.7× 241 0.7× 385 1.4× 148 0.7× 65 1.1× 39 725
Steven H. Huang United States 8 489 1.4× 220 0.7× 431 1.6× 104 0.5× 32 0.6× 19 684
Dordaneh Etezadi Switzerland 10 210 0.6× 612 1.8× 167 0.6× 454 2.2× 48 0.8× 15 769
Peter Geisler Germany 9 245 0.7× 609 1.8× 240 0.9× 488 2.4× 97 1.7× 13 745
Chunxiu Tian China 14 287 0.8× 380 1.1× 203 0.7× 510 2.5× 40 0.7× 16 798
Jefferson Dixon United States 8 109 0.3× 196 0.6× 143 0.5× 283 1.4× 99 1.7× 12 450
Ali Raza Belgium 13 443 1.3× 210 0.6× 248 0.9× 149 0.7× 48 0.8× 29 590
Christiane Höppener Germany 14 136 0.4× 414 1.2× 156 0.6× 236 1.2× 126 2.2× 30 605

Countries citing papers authored by Jiwei Qi

Since Specialization
Citations

This map shows the geographic impact of Jiwei Qi'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 Jiwei Qi with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Jiwei Qi more than expected).

Fields of papers citing papers by Jiwei Qi

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Jiwei Qi. 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 Jiwei Qi. The network helps show where Jiwei Qi may publish in the future.

Co-authorship network of co-authors of Jiwei Qi

This figure shows the co-authorship network connecting the top 25 collaborators of Jiwei Qi. A scholar is included among the top collaborators of Jiwei Qi 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 Jiwei Qi. Jiwei Qi 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.
Zhang, Jiawei, Jiwei Qi, Qiang Wu, et al.. (2025). Non-Hermitian systems based on 3D chirality enabled asymmetrical polarization switching and omni-polarizer action at an EP. Light Science & Applications. 14(1). 383–383.
2.
Qi, Jiwei, Qiang Wu, Yao Lu, et al.. (2024). Omni-polarized Faraday isolator based on non-Hermitian Faraday system. Optics Express. 32(11). 18594–18594. 1 indexed citations
3.
Lu, Yao, et al.. (2023). Nonlinear harmonic generation of terahertz waves in a topological valley polaritonic microcavity. Chinese Optics Letters. 21(8). 81901–81901. 1 indexed citations
4.
Lu, Yao, Qiang Wu, Hao Xiong, et al.. (2022). Light–matter interaction beyond Born–Oppenheimer approximation mediated by stimulated phonon polaritons. Communications Physics. 5(1). 6 indexed citations
5.
Wu, Hongjin, Jiwei Qi, Qiang Wu, et al.. (2022). Tunable intrinsic chirality obtained by combining the extrinsic chiral structure on an anisotropic substrate. Journal of Nonlinear Optical Physics & Materials. 33(3). 1 indexed citations
6.
7.
Guo, Hui, Jiwei Qi, Meiling Jiang, et al.. (2022). Ultra-high figure of merit refractive index sensor based on concentric ring and disk resonator. Journal of Optics. 52(1). 120–127. 6 indexed citations
8.
Qi, Jiwei, Qiang Wu, Hongjin Wu, et al.. (2021). Coin Paradox Spin–Orbit Interaction Enhances Magneto-Optical Effect and Its Application in On-Chip Integrated Optical Isolator. Nanoscale Research Letters. 16(1). 175–175.
9.
Cao, Liyuan, Jiwei Qi, Qiang Wu, et al.. (2019). Giant Tunable Circular Dichroism of Large-Area Extrinsic Chiral Metal Nanocrescent Arrays. Nanoscale Research Letters. 14(1). 388–388. 19 indexed citations
10.
Wang, Ride, Qiang Wu, Qi Zhang, et al.. (2018). Conversion from terahertz-guided waves to surface waves with metasurface. Optics Express. 26(24). 31233–31233. 10 indexed citations
11.
Chen, Jing, Yudong Li, Jun Qian, et al.. (2018). Dichroic Optical Diode Transmission in Two Dislocated Parallel Metallic Gratings. Nanoscale Research Letters. 13(1). 392–392. 18 indexed citations
12.
Chen, Zongqiang, Jiwei Qi, Jing Chen, et al.. (2018). Unidirectional Optical Transmission in a Single-Layer Metallic Grating Consisting of Cambered Resonators. IEEE photonics journal. 10(4). 1–8. 2 indexed citations
13.
Zhao, Wenjuan, Qiang Wu, Ride Wang, et al.. (2018). Transient establishment of the wavefronts for negative, zero, and positive refraction. Optics Express. 26(2). 1954–1954. 1 indexed citations
14.
Zhang, Qi, Jiwei Qi, Qiang Wu, et al.. (2017). Surface enhancement of THz wave by coupling a subwavelength LiNbO3 slab waveguide with a composite antenna structure. Scientific Reports. 7(1). 17602–17602. 8 indexed citations
15.
Xiang, Yinxiao, Weiwei Luo, Wei Cai, et al.. (2016). Nanofocusing of the free-space optical energy with plasmonic Tamm states. Scientific Reports. 6(1). 39125–39125. 8 indexed citations
16.
Li, Yan, Zongqiang Chen, Jing Chen, et al.. (2014). Polarization-insensitive plasmonic-induced transparency in planar metamaterial consisting of a regular triangle and a ring. Journal of Optics. 16(12). 125013–125013. 11 indexed citations
17.
Qi, Jiwei, Zongqiang Chen, Jing Chen, et al.. (2014). Independently tunable double Fano resonances in asymmetric MIM waveguide structure. Optics Express. 22(12). 14688–14688. 148 indexed citations
18.
Zhao, Lihua, Yudong Li, Jiwei Qi, Jingjun Xu, & Qian Sun. (2010). Quasi 3-dimensional optical trapping by two counter-propagating beams in nano-fiber. Optics Express. 18(6). 5724–5724. 13 indexed citations
19.
Zhao, Lihua, Yudong Li, Jiwei Qi, Jingjun Xu, & Qian Sun. (2009). Light focusing by the unique dielectric nano-waveguide array. Optics Express. 17(19). 17136–17136. 5 indexed citations
20.
Warner, Philip, Jiwei Qi, Bin Meng, et al.. (2002). DNA cleavage by aromatic amines. Bioorganic & Medicinal Chemistry Letters. 12(1). 1–4. 7 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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