Donglin Zu | Physics and Astronomy | Research Excellence Award

Published on 02/12/202502/12/2025 by Book of Award

Prof. Donglin Zu | Physics and Astronomy | Research Excellence Award

Peking University | China

Prof. Donglin Zu is a distinguished physicist whose career spans pioneering contributions to electromagnetics, nuclear magnetic resonance (NMR), magnetic resonance imaging (MRI), and, more recently, photon structure theory. His early work involved teaching electromagnetics and developing an independent NMR magnetometer, along with solving key control challenges in high-voltage electrostatic accelerators. His international research experience includes studying RF superconducting cavities at Cornell University, followed by leading a major project on the practical design of niobium cavities. Over two decades, he made significant advances in MRI engineering, contributing to wavelet-based medical image fusion, high-resolution NMR spectral reconstruction, shim coil design, permanent-magnet MRI optimization, and low-noise preamplifier development. He authored influential textbooks on electrodynamics and MRI, widely adopted in advanced training and research. His extensive publication record encompasses innovations in superconducting magnets, ferromagnetic shimming, pulse sequence optimization, image contrast mechanisms, and magnet design methodologies. As a long-term consultant to MRI industries, he helped translate theoretical principles into practical imaging technologies. In recent years, his research has shifted toward foundational physics, producing breakthrough models on single-photon structures, standing-wave photon behavior in constrained spaces, and multi-photon composite systems, marking a new phase of theoretical advancement with impactful emerging publications.

Profile : Orcid

Featured Publications

Zu, D. (2025). Standing wave photon structures in constraint spaces. Photonics.

Zu, D. (2025). Standing wave photon structures in constraint spaces [Preprint].

Zu, D. (2025). Single photon structure model and multi-photon composite monomer. Optics Express.

Zu, D. (2016). Electrodynamics (Rev. ed.). Tsinghua University Press.

Zu, D. (2015). Nuclear magnetic resonance imager. Science Press.

Zu, D., & Gao, J. (2014). Nuclear magnetic resonance imaging. Peking University Press.

Liu, W., Casanova, F., Blümich, B., & Zu, D. (2012). An efficacious target-field approach to design shim coils for Halbach magnet of mobile NMR sensors. Applied Magnetic Resonance.

Zhao, X., Wen, Z., Huang, F., Lu, S., Wang, X., Hu, S., Zu, D., & Zhou, J. (2011). Saturation power dependence of amide proton transfer image contrasts in human brain tumors and strokes at 3 T. Magnetic Resonance in Medicine.

Cao, X., Zu, D., Zhao, X., Fan, Y., & Gao, J. (2011). The design of a low-noise preamplifier for MRI. Science China Technological Sciences.

Tang, X., Zu, D., Wang, T., & Han, B. (2010). An optimizing design method for a compact iron-shielded superconducting magnet for use in MRI. Superconductor Science and Technology.

Tang, X., Li-Ming, H., & Zu, D.-L. (2010). Active ferromagnetic shimming of the permanent magnet for magnetic resonance imaging scanner. Chinese Physics B.

Zhao, X., Chen, M., Zhang, C., Hu, S., & Zu, D. (2010). Experimental evaluation of dual acceptance window weighting function for right coronary MR angiography at 3.0 T. Magnetic Resonance Imaging.

Zu, D., Liming, H., Xueming, C., & Xin, T. (2010). Analysis on background magnetic field to generate eddy current by pulsed gradient of permanent-magnet MRI. Science China Series E.

Elisa Placidi | Physics and Astronomy | Best Researcher Award

Published on 17/11/202517/11/2025 by Book of Award

Dr. Elisa Placidi | Physics and Astronomy | Best Researcher Award

Fondazione Policlinico Universitario Agostino Gemelli IRCCS |Italy

Dr. Elisa Placidi is a distinguished researcher in medical physics and interventional radiotherapy, with a strong publication record reflected in 785 citations, an h-index of 16, and 26 i10-index publications. Her research focuses on advancing modern brachytherapy, improving dosimetric accuracy, and integrating innovative technologies such as 3D-printed applicators and image-guided systems. She has contributed extensively to studies evaluating the dosimetric impact of air gaps in high-dose-rate contact radiotherapy for non-melanoma skin cancers, the transition from PDR to HDR techniques for head and neck tumors, and the development of multilayer, high-density shielding applicators for personalized treatment. Her work also includes retrospective comparisons of HDR brachytherapy versus VMAT and electron beam therapy, investigations into patient-reported outcomes in nasal vestibule treatments, and characterization of plastic scintillator detectors for in vivo dosimetry. In her clinical role as a medical physicist, she supports treatment planning and optimization for external beam and interventional radiotherapy, contributing to high-precision cancer care. Complementing her clinical and research activities, she is involved in quality assurance and the academic training of future professionals in physics and radiological safety.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Rosa, E., Fionda, B., Vaccaro, M., Placidi, E., Lancellotta, V., Napolitano, A., Pastore, F., Greco, F., Dragonetti, P., La Milia, M. C., et al. (2025). Dosimetric impact of air gaps in high-dose-rate contact interventional radiotherapy (modern brachytherapy) for non-melanoma skin cancer of the ear. Journal of Clinical Medicine, 14(21).

van Noortwijk, R., Kroon, P., Kastelijns, M., Jürgenliemk-Schulz, I., Verduijn, G., Kolkman-Deurloo, I.-K., Tagliaferri, L., Fionda, B., Placidi, E., Al-Mamgani, A., et al. (2025). A review on the transition from PDR to HDR brachytherapy (interventional radiotherapy) for treatment of head and neck cancer: Clinical and practical aspects. Brachytherapy.

Rosa, E., Raponi, S., Fionda, B., Vaccaro, M., Napolitano, A., Lancellotta, V., Pastore, F., Ciasca, G., Siebert, F.-A., Tagliaferri, L., et al. (2025). Intensity-modulated interventional radiotherapy using 3D-printed applicators with multilayer geometry and high-density shielding materials for NMSC treatment. Journal of Personalized Medicine, 15(10).

Rosa, E., Raponi, S., Fionda, B., Vaccaro, M., Lancellotta, V., Napolitano, A., Ciasca, G., Bannoni, L., Cornacchione, P., Tagliaferri, L., et al. (2025). 3D-printed devices in interventional radiotherapy (brachytherapy) applications: A literature review. Journal of Personalized Medicine, 15(6).

Tagliaferri, L., Manfrida, S., Fionda, B., Dinapoli, N., Barbaro, B., De Luca, V., Placidi, E., Bertolini, R., Marazzi, F., Lancellotta, V., et al. (2025). High-tailored anal canal radiotherapy (HIT-ART): Long-term results of MR image-guided interventional radiotherapy boost. Brachytherapy.

Placidi, E., Fionda, B., Rosa, E., Lancellotta, V., Napolitano, A., De Angeli, M., Ciasca, G., Pastore, F., Gambacorta, M. A., Tagliaferri, L., et al. (2024). Retrospective dosimetric comparison of HDR interventional radiotherapy versus planning with VMAT and electron beam therapy for non-melanoma skin cancer treatment. Applied Sciences, 14(22).

Tagliaferri, L., Sciurti, E., Fionda, B., Loperfido, A., Lancellotta, V., Placidi, E., Parrilla, C., La Milia, M. C., Rosa, E., Rigante, M., et al. (2024). PRO-NOVELTY: Patient-reported outcomes in nose vestibule interventional radiotherapy (brachytherapy). Journal of Clinical Medicine, 13(16).

Herreros, A., Pérez-Calatayud, J., Ballester, F., Abellana, R., Neves, J., Melo, J., Moutinho, L., Tarrats-Rosell, J., Serrano-Rueda, S., Tagliaferri, L., et al. (2024). Characterization of plastic scintillator detector for in vivo dosimetry in gynecologic brachytherapy. Journal of Personalized Medicine, 14(3).

Chris Impey | Physics and Astronomy | Excellence in Research Award

Published on 07/11/202507/11/2025 by Book of Award

Prof. Dr. Chris Impey | Physics and Astronomy | Excellence in Research Award

University of Arizona | United States

Prof. Dr. Chris Impey is a distinguished astronomer whose research has profoundly shaped modern astrophysics and astronomy education. With over 34,300 citations, an h-index of 88, and an i10-index of 192, his scholarly influence spans across extragalactic astronomy, quasars, and cosmology. He has authored more than 400 refereed publications and conference papers, including pioneering studies on polarization, blazars, and low surface brightness galaxies. His extensive research funding includes numerous NASA and NSF grants, advancing the understanding of active galactic nuclei, quasars, and cosmic evolution. Beyond technical contributions, Prof. Impey is a prolific author and editor of over 18 books, including The Living Cosmos, How It Began, and Worlds Without End, which bridge scientific insight with philosophical reflection on humanity’s place in the universe. His interdisciplinary approach integrates astronomy, astrobiology, and education, emphasizing public engagement and science communication. Through decades of innovative research, teaching, and authorship, Prof. Impey has become a leading voice in exploring the origins, structure, and future of the cosmos, inspiring generations of scientists and students worldwide.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Grayson, S., Simon, M. N., Buxner, S., Wenger, M., & Impey, C. (2025). Motivation, demographics, and engagement during COVID-19 in an astrobiology massive open online course. Physical Review Physics Education Research, 21(1), 010109.

Impey, C., Wenger, M., Garuda, N., Golchin, S., & Stamer, S. (2025). Using large language models for automated grading of student writing about science. International Journal of Artificial Intelligence in Education.

Impey, C. (2024, July). Developing technology tools to combat fake science. In EDULEARN24 Proceedings.

Impey, C., & Danehy, A. (2024, July). Exploring the frontiers of space in 3D. In EDULEARN24 Proceedings.

Impey, C. (2024, July). Graduate certificate in science communication. In EDULEARN24 Proceedings.

Impey, C. (2024, July). Massive open online courses: Astronomy for astronomical numbers. In EDULEARN24 Proceedings.

Impey, C. (2024, July). Using machine learning for automated grading of student science writing. In EDULEARN24 Proceedings.

Impey, C. (2024, July). Videos for astronomy education and outreach. In EDULEARN24 Proceedings.

Impey, C., Pereira, V., Danehy, A., & Wenger, M. (2023, July 12). Video as a vehicle for astronomy education and outreach. Astronomy Education Journal, 3(1), 052resana.

He, Y. (Kay), Impey, C., & Burleson, W. (2023, June 1). StellarScape: An immersive multimedia performance inspired by the life of a star. Leonardo, 56(3), 1–7.

Impey, C., Wenger, M., & Riabokin, X. (2023, April 1). The design and delivery of an astrobiology massive open online class. Astrobiology, 23(4), 1–10.

Impey, C. (2022, August). Life beyond Earth: How will it first be detected? Acta Astronautica, 199, 19–25.

Impey, C. (2022, April 19). Astrobiology for education and outreach: Three immersive projects. Preprint, ESSOAr.

Impey, C., & Formanek, M. (2021). MOOCs and 100 days of COVID: Enrollment surges in massive open online astronomy classes during the coronavirus pandemic. Social Sciences & Humanities Open, 3(1), 100177.

Impey, C. D. (2021). Science and faith off-Earth. In Astrobiology, discovery, and societal impact (pp. 345–358). Springer.

Szocik, K., Shelhamer, M., Braddock, M., Cucinotta, F. A., Impey, C., Worden, P., Peters, T., Ćirković, M. M., Smith, K. C., & Tachibana, K. (2021, October). Future space missions and human enhancement: Medical and ethical challenges. Futures, 131, 102819.

Szocik, K., Abood, S., Impey, C., Shelhamer, M., Haqq-Misra, J., Persson, E., Oviedo, L., Capova, K. A., Braddock, M., & Rappaport, M. B. (2020, March). Visions of a Martian future. Futures, 117, 102514.

Impey, C. (2019, December). Online resources for astronomy education and outreach. Proceedings of the International Astronomical Union, 15(S367), 39–45.

Xin-Jian Wen | Physics and Astronomy | Best Researcher Award

Published on 15/10/202515/10/2025 by Book of Award

Prof. Xin-Jian Wen | Physics and Astronomy | Best Researcher Award

Shanxi University | China

Prof. Xin-Jian Wen is a distinguished theoretical physicist whose research focuses on the properties of strongly interacting matter, the mechanism of QCD phase transitions, and the behavior of strange quark matter under extreme conditions such as high density and strong magnetic fields. With an h-index of 11, 43 published documents, and 567 citations from 352 sources, his work has made a significant contribution to advancing quantum chromodynamics (QCD) phenomenology at finite temperature and density. A graduate of Shaanxi Normal University and the Chinese Academy of Sciences, Prof. Wen has developed innovative models to study the stability of strange quark matter, strangelets, and the quark-hadron mixed phase in compact stars. His pioneering investigations using the quasiparticle model and multi-reflection expansion approach have provided new insights into surface tension effects, magnetic field interactions, and color-flavor-locked (CFL) phases. Prof. Wen has collaborated with several leading physicists and published influential papers in top-tier journals such as Physical Review D and Physical Review C. As a full professor at the Institute of Theoretical Physics, Shanxi University, he continues to advance theoretical research in QCD and compact star physics.

Profiles : Scopus | Orcid

Featured Publications

Zhang, J., & Wen, X.-J. (2025, September 12). Stability analysis of magnetized quark matter in Tsallis statistics. Universe.

Jiang, X.-W., & Wen, X.-J. (2025, June 20). Deconfinement of magnetized quark matter in a quasiparticle description. International Journal of Modern Physics A.

Niu, Y.-H., Wen, X.-J., & Singha, S. (2025, January). Tensor condensate accompanied by chiral transition in a strong magnetic field. Advances in High Energy Physics.

Su, S.-Z., Zhao, Y.-Y., & Wen, X.-J. (2025, January 31). The finite volume effects of the Nambu–Jona–Lasinio model with the running coupling constant. Journal of Physics G: Nuclear and Particle Physics.

Zhang, J., & Wen, X.-J. (2024, November 26). QCD phase transition with nonextensive NJL model in the strong magnetic field. Physical Review D.

He, R., & Wen, X.-J. (2024, June 1). Anisotropy and paramagnetism of QCD matter with an anomalous magnetic moment. Journal of Physics G: Nuclear and Particle Physics.

Wen, X.-J., & Zhang, J. (2024, February 12). Thermal effect in hot QCD matter in strong magnetic fields. Physical Review C.

Wang, Y., & Wen, X.-J. (2024, January 8). Isospin asymmetric matter in uniform and nonuniform strong magnetic fields. Physical Review C.

He, Y.-Y., & Wen, X.-J. (2023, April 24). Medium effect on anisotropic surface tension of magnetized quark matter. Physical Review D.

He, R., & Wen, X.-J. (2022, December 29). Effect of anomalous magnetic moment on the chiral transition at zero temperature in a strong magnetic field. Physical Review D. amics of PNJL model at zero temperature in a strong magnetic field. Physical Review D.

Yang, L., & Wen, X.-J. (2021, December 8). Compressibility of quark matter under strong magnetic field in the NJL model. Physical Review D.

Su, S.-Z., & Wen, X.-J. (2021, July 1). Influence of magnetic fields on the stability and the phase transition of quark matter in the Nambu–Jona–Lasinio model. Journal of Physics G: Nuclear and Particle Physics.

Wen, X.-J., He, R., & Liu, J.-B. (2021, May 17). Effect of the anomalous magnetic moment on the chiral transition in a strong magnetic field. Physical Review D.

Wang, Y., & Wen, X.-J. (2020, October 1). Magnetized hot and dense quark matter in the Polyakov Nambu–Jona–Lasinio model. Journal of Physics G: Nuclear and Particle Physics.

Carlo Cafaro | Physics and Astronomy | Best Researcher Award

Published on 25/11/202425/11/2024 by Book of Award

Assoc. Prof. Dr. Carlo Cafaro | Physics and Astronomy | Best Researcher Award

University at Albany-SUNY | United States

Author Profile

Scopus

Orcid

Google Scholar

Early Academic Pursuits 🎓

Dr. Carlo Cafaro's journey in physics began with a strong foundation in theoretical studies. He earned a Master's in Theoretical Physics from the University of Pisa, Italy, where he explored gravitational wave detection. He furthered his education in the United States, completing his Ph.D. in Physics at the University at Albany-SUNY in 2008 with a thesis on "The Information Geometry of Chaos," under the guidance of Prof. Ariel Caticha. This period marked the inception of his fascination with the intersection of geometry and information science.

Professional Endeavors 🌐

Dr. Cafaro’s professional career is a testament to his global and interdisciplinary engagement. He served as a postdoctoral researcher at esteemed institutions, including the Max-Planck Institute for the Science of Light in Germany and Clarkson University in the U.S. His tenure as an Assistant Professor of Applied Mathematics at SUNY Polytechnic Institute laid the groundwork for his eventual promotion to an Associate Professor at the University at Albany-SUNY in 2023. His teaching roles have spanned continents, showcasing his dedication to nurturing the next generation of scientists.

Contributions and Research Focus 🔬

A recognized expert in theoretical physics and applied mathematics, Dr. Cafaro’s research delves into classical and quantum information physics, chaos theory, and the application of information geometry to complex systems. He has made significant contributions to understanding causal structures in systems and applying geometric Clifford algebra to electrodynamics and quantum computation. His most-cited work on spacetime algebra underscores his impact on advancing theoretical frameworks. Dr. Cafaro's innovative research has been supported by consistent funding, including grants from the Air Force Research Laboratory and the DOE National Laboratory.

Accolades and Recognition 🏆

Dr. Cafaro’s excellence has been acknowledged through numerous awards, such as the CNSE Undergraduate Excellence in Teaching Award, which he received multiple times at SUNY Polytechnic Institute. His research fellowships at the Air Force Research Laboratory over eight consecutive summers highlight his sustained contribution to cutting-edge quantum computing theory and simulation. These accolades underscore his dual impact as a researcher and educator.

Impact and Influence 🌟

Dr. Cafaro has cultivated an h-index of 22, reflecting his academic influence and the broad applicability of his work. His invited talks at prestigious conferences, such as the 12th Joint European Thermodynamics Conference, further illustrate his thought leadership. His mentorship of students and peers in interdisciplinary projects has expanded the boundaries of classical and quantum information sciences.

Legacy and Future Contributions 🌍

As an Associate Professor with a well-established track record, Dr. Cafaro continues to push the boundaries of theoretical physics and applied mathematics. His work on quantum computing and chaos theory holds promise for future advancements in technology and science. Through his teaching, research, and collaborative initiatives, Dr. Cafaro is shaping the intellectual landscape, fostering innovation, and leaving a lasting legacy in the scientific community.

Publications

📜"From Uncertainty Relations to Quantum Acceleration Limits"
- - Journal: Axioms
  - Authors: Carlo Cafaro, Christian Corda, Newshaw Bahreyni, Abeer Alanazi
  - Year: 2024

📜"An Observer-Based View of Euclidean Geometry"
- Journal: Mathematics
- Authors: Newshaw Bahreyni, Carlo Cafaro, L. Rossetti
- Year: 2024

📜"Upper Limit on the Acceleration of a Quantum Evolution in Projective Hilbert Space"
- Journal: International Journal of Geometric Methods in Modern Physics
- Authors: P. M. Alsing, Carlo Cafaro
- Year: 2024

📜"Constructions of Optimal-Speed Quantum Evolutions: A Comparative Study"
- Journal: Physica Scripta
- Authors: L. Rossetti, Carlo Cafaro, Newshaw Bahreyni
- Year: 2024

📜"Universality of the Thermodynamics of a Quantum-Mechanically Radiating Black Hole Departing from Thermality"
- Journal: Physics Letters B
- Authors: Christian Corda, Carlo Cafaro
- Year: 2024

Dinesh Kumar Chaudhary | Physics and Astronomy | Best Researcher Award

Published on 10/04/202410/04/2024 by Book of Award

Dr. Dinesh Kumar Chaudhary | Physics and Astronomy | Best Researcher Award

Tribhuvan University | Nepal

Author Profile

Scopus

Orcid

Early Academic Pursuits

Dr. Dinesh Chaudhary commenced his academic journey with a Bachelor's degree in Physics from Tribhuvan University, Kathmandu, Nepal. He proceeded to earn a Master's and eventually a Ph.D. in Physics from the same institution, demonstrating a steadfast commitment to academic excellence from the outset.

Professional Endeavors

Throughout his career, Dr. Chaudhary has been actively engaged in teaching and research at Amrit Campus, Tribhuvan University. He has been imparting knowledge in both undergraduate and postgraduate physics courses since 2004 and 2010, respectively, showcasing his dedication to nurturing future generations of physicists.

Contributions and Research Focus

Dr. Chaudhary's research endeavors span a wide array of topics in the field of physics, with a particular emphasis on materials science and nanotechnology. He has conducted several research projects investigating the electrical, optical, and sensing properties of various semiconductor materials, contributing significantly to the advancement of knowledge in these areas.

Accolades and Recognition

His contributions to the field have been recognized through memberships in esteemed organizations such as the Nepal Physical Society and the IEEE EDS Society. Additionally, his research publications in national and international journals have garnered attention and acclaim from the scientific community, further solidifying his reputation as a prominent figure in his field.

Impact and Influence

Dr. Chaudhary's research has not only expanded the frontiers of scientific knowledge but also holds practical implications in areas such as sensor technology, renewable energy, and nanoelectronics. His work on gas sensors, thin-film technology, and nanomaterials has the potential to address pressing societal challenges and drive innovation in various industries.

Legacy and Future Contributions

As Dr. Chaudhary continues his academic journey, his legacy of scholarly excellence and dedication to research will undoubtedly inspire future generations of physicists. His ongoing efforts to explore new avenues in materials science and nanotechnology promise to yield further insights and innovations, shaping the landscape of physics research for years to come.

Notable Publications

Mechanism of Imprinting Process in the Ni-P Metallic Glass Films: A Molecular Dynamics Study 2023 (3)

Unsteady Radiative Maxwell Fluid Flow over an Expanding Sheet with Sodium Alginate Water-Based Copper-Graphene Oxide Hybrid Nanomaterial: An Application to Solar Aircraft 2022 (10)

Prescribed Thermal Activity in the Radiative Bidirectional Flow of Magnetized Hybrid Nanofluid: Keller-Box Approach 2022 (13)

Quandong Huang | Physics and Astronomy | Best Researcher Award

Published on 27/01/202427/01/2024 by Book of Award

Assoc Prof Dr. Quandong Huang | Physics and Astronomy | Best Researcher Award

Guangdong University of Technology | China

Author Profile

Google Scholar

Early Academic Pursuits

Quandong Huang embarked on his academic journey at Shenzhen University, earning a bachelor's degree in Light Information Sci.&Tech. His passion for optics led him to pursue a master's degree in Optics and later a Ph.D. in Electronic Engineering from the City University of Hong Kong. Notably, his doctoral research under the guidance of Prof. K. S. Chiang focused on pioneering 3D optical lightwave circuits for mode division multiplexing applications.

Professional Endeavors

Following his Ph.D., Quandong contributed significantly as a Senior Research Assistant at CityU Research Centre on Optical Fibre Sensing and Communications. During this time, he enhanced the transfer of 2D materials, leading to a publication in the esteemed journal Optica. His subsequent roles included Associate Professor at Guangdong University of Technology, showcasing his commitment to advancing knowledge in the field.

Contributions and Research Focus

Quandong's research interests span diverse areas, including 2D material optical devices, integrated optical waveguide devices, and micro-nano electro-optics devices. His expertise encompasses optical design, simulation, micro-fabrication processes in cleanrooms, and optical measurement. Key contributions include the development of integrated equipment condition models and pioneering work on 2D material in photonic lightwave circuits.

Accolades and Recognition

Quandong Huang's contributions have garnered recognition, with over 30 publications in prestigious journals such as Optica, Journal of Lightwave Technology, and Optics Letters. As a testament to his impact, he serves as a reviewer for international journals, further solidifying his standing in the academic community.

Impact and Influence

His impact extends beyond academia, demonstrated through projects like NFSC, UGC HK funding, and membership in OSA. Quandong's teaching roles underscore his commitment to knowledge dissemination, covering courses in Information Science, Electronic Engineering, and Automatic Detection Technology.

Legacy and Future Contributions

Quandong Huang's legacy lies in pioneering advancements in optical technology. His work not only contributes to the current understanding of 2D material-based devices and integrated photonic circuits but also lays the groundwork for future breakthroughs. As he continues his research at Guangdong University of Technology, his future contributions are poised to shape the landscape of optical engineering and technology.

Notable Publications

Reconfigurable ultra-broadband mode converter based on a two-mode fiber with pressure-loaded phase-shifted long-period alloyed waveguide grating 2023 (3)

Ultra-broadband LP₁₁ mode converter with high purity based on long-period fiber grating and an integrated Y-junction 2022 (5)

Low-power all-optical switch based on a graphene-buried polymer waveguide Mach-Zehnder interferometer 2022 (6)

Ambient refractive index-independent bending vector sensor based on seven-core photonic crystal fiber using lateral offset splicing 2013 (95)