Shandong University of Science and Technology, China
Professor Yandong Peng is a leading academic in the fields of laser physics, nonlinear optics, and quantum optics, currently serving at the College of Electronic and Information Engineering, Shandong University of Science and Technology. With over a decade of active research and teaching experience, he has made significant contributions to the understanding of electromagnetically induced transparency (EIT), Rydberg atom-based quantum sensing, and coherent optical control. His scientific acumen is evidenced by more than 54 peer-reviewed publications in high-impact journals, reflecting his strong engagement with the international research community. His collaborative work with institutions like the Institute of Quantum Optics and IQST, alongside Prof. Fedor Jelezko, has further enhanced his global recognition. Known for his dedication to both research and education, Prof. Peng has shaped numerous student careers and continues to influence the optics community through innovative investigations and contributions to emerging quantum technologies.
Professional Profile
Education🎓
Professor Yandong Peng holds a strong and diverse academic background in physics. He earned his Ph.D. in Optics from the Shanghai Institute of Optics and Fine Mechanics (SIOM), Chinese Academy of Sciences, in 2011, where he focused on intracavity electromagnetically induced transparency and optical precursors under the guidance of Professors Shangqing Gong and Jingtao Zhang. Prior to this, he obtained his Master’s degree in Atomic and Molecular Physics from Huangzhong Normal University in 2008, working on resonance fluorescence and coherent population trapping. He began his academic journey with a Bachelor’s degree in Applied Physics from Shandong Normal University in 2005, where he explored circuit protection sensor design. His educational pathway has been consistently aligned with high-impact research in optical physics, quantum interference, and atomic systems, laying a robust foundation for his subsequent research in laser technology, nonlinear optics, and quantum control systems.
Professional Experience📝
Professor Yandong Peng has cultivated a rich professional career marked by progressive academic appointments and international collaboration. He began as a Lecturer of Physics at Shandong University of Science and Technology (SDUST) from 2011 to 2013, where he conducted foundational research on atomic coherence and quantum interference. From 2014 to 2017, he served as an Associate Professor, expanding his research into tunneling-induced transparency and fifth-order nonlinearity. Promoted to Full Professor in 2018, he has led numerous advanced projects in Rydberg atom-based microwave field measurement and broadband absorbers. From 2019 to 2020, he enhanced his global research exposure as a Visiting Scholar at the Institute of Quantum Optics and IQST in Germany, working under Prof. Fedor Jelezko on opt-quantum sensing. His extensive teaching portfolio includes courses in Laser Physics, Nonlinear Optics, and LED Packaging, demonstrating his commitment to both academic excellence and educational leadership.
Research Interest🔎
Professor Peng’s research interests lie at the forefront of quantum optics, coherent light-matter interaction, and nonlinear photonics. He specializes in electromagnetically induced transparency (EIT), Rydberg atom-based quantum sensing, multi-photon coherence, and microwave electrometry. His innovative work on phase control in coherent pulse propagation, optical switching, and quantum state manipulation contributes directly to advances in quantum communication, precision metrology, and optical signal processing. A significant portion of his current research investigates applications of atomic coherence phenomena to develop sensitive measurement techniques and photonic devices. His collaborations with international institutions have further allowed him to engage with topics such as nonreciprocal polariton states, dual-Raman-based isolators, and multi-level atomic systems. Professor Peng’s interdisciplinary approach bridges theory and experiment, bringing physics, engineering, and applied optics together in practical applications relevant to both academia and industry.
Award and Honor🏆
Professor Yandong Peng has earned recognition through numerous academic achievements and research distinctions over his career. Although specific award titles are not listed in the provided profile, his selection as a Visiting Scholar at the prestigious Institute of Quantum Optics and IQST—in collaboration with Prof. Fedor Jelezko, a globally respected quantum physicist—demonstrates a high level of peer recognition. His publications in top-tier journals such as Physical Review A, Optics Express, and Sensors also underscore the quality and impact of his work. Within China, his advancement to Full Professorship at Shandong University of Science and Technology at a relatively young age further reflects institutional acknowledgment of his leadership and research output. As a member of the Chinese Physical Society (CPS), he maintains an active role in shaping national scientific dialogue. With continued global collaboration and publication excellence, more formal accolades and honors are likely to follow in the coming years.
Research Skill🔬
Professor Peng brings a rich set of research skills honed through years of advanced study and experimentation in optical and quantum physics. He is proficient in designing and conducting laser-based experiments, atomic and molecular simulations, and quantum interference models. His work frequently involves multi-level atomic system modeling, microwave electric field measurements using Rydberg atoms, and nonlinear light-matter interactions, reflecting deep expertise in both theoretical frameworks and experimental setups. His skill set also includes precision optics instrumentation, optical signal generation (e.g., PAM-4/PAM-8), and nonreciprocal device development using quantum states. In collaborative environments, he excels at interdisciplinary integration, particularly where quantum sensing, optical communication, and material characterization intersect. He also mentors graduate students in experimental design, data interpretation, and scientific publishing, contributing to a well-rounded research ecosystem. His ability to translate complex theoretical principles into real-world applications positions him as a leader in modern optical and quantum technologies.
Conclusion💡
Professor Yandong Peng is an exceptional candidate for the Most Cited Article Award, having made substantial and influential contributions to the field of quantum optics. His research on phase control in coherent pulse propagation using EIT has proven to be highly impactful and widely cited, reflecting both academic excellence and real-world applicability. With a strong portfolio of international collaborations, high-impact publications, and leadership in physics education, he embodies the qualities of a forward-thinking researcher. His future potential lies in deepening his role in global quantum science initiatives, mentoring the next generation, and shaping emerging technologies in optical communication and quantum metrology.
Publications Top Noted✍️
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B. Fang, B. Li, Y. Peng, C. Li, Z. Hong, X. Jing – 2019
📘 Polarization‐independent multiband metamaterials absorber by fundamental cavity mode of multilayer microstructure
🔁 90 citations
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B. Fang, Z. Cai, Y. Peng, C. Li, Z. Hong, X. Jing – 2019
📘 Realization of ultrahigh refractive index in terahertz region by multiple layers coupled metal ring metamaterials
🔁 82 citations
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Y. Peng, Y. Niu, Y. Qi, H. Yao, S. Gong – 2011
📘 Optical precursors with tunneling-induced transparency in asymmetric quantum wells
🔁 43 citations
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Y. Qi, Y. Niu, F. Zhou, Y. Peng, S. Gong – 2011
📘 Phase control of coherent pulse propagation and switching based on electromagnetically induced transparency in a four-level atomic system
🔁 37 citations
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Y. Peng, J. Wang, A. Yang, Z. Jia, D. Li, B. Chen – 2018
📘 Cavity-enhanced microwave electric field measurement using Rydberg atoms
🔁 27 citations
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Y. Peng, Y. Niu, N. Cui, S. Gong – 2011
📘 Cavity linewidth narrowing by voltage-controlled induced transparency in asymmetry quantum dot molecules
🔁 26 citations
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Y. Peng, A. Yang, D. Li, H. Zhang, Y. Niu, S. Gong – 2014
📘 Ultranarrow linewidth and high gain of an optical cavity with enhanced self-Kerr nonlinearity in quantum dot molecules
🔁 24 citations
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Y. Peng, A. Yang, B. Chen, L. Li, S. Liu, H. Guo – 2016
📘 Tunable, high-sensitive measurement of inter-dot transition via tunneling induced absorption
🔁 20 citations
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Y. Peng, A. Yang, B. Chen, S. Zhang, S. Liu, X. Wang – 2015
📘 Enhanced cross-Kerr effect for probing tunnelling in coupled quantum dots
🔁 18 citations
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B. Chen, W. Fan, Y. Xu, Y.D. Peng, H.Y. Zhang – 2013
📘 Multipath adiabatic quantum state transfer
🔁 18 citations
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Y. Peng, Y. Niu, L. Zhang, A. Yang, L. Jiang, S. Gong – 2012
📘 Enhanced optical precursors by Doppler effect via active Raman gain process
🔁 18 citations
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Y. Peng, L. Jin, Y. Niu, S. Gong – 2010
📘 Tunable ultranarrow linewidth of a cavity induced by interacting dark resonances
🔁 17 citations
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Y. Peng, A. Yang, Y. Xu, P. Wang, Y. Yu, H. Guo, T. Ren – 2016
📘 Tunneling induced absorption with competing nonlinearities
🔁 16 citations
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S.D. Liu, L.L. Dong, L.H. Zheng, M. Berkowski, L.B. Su, T.Q. Ren, Y.D. Peng, et al. – 2016
📘 High-power femtosecond pulse generation in a passively mode-locked Nd: SrLaAlO4 laser
🔁 13 citations
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S.D. Liu, L.L. Dong, Y. Xu, X. Zhang, T.Q. Ren, X.D. Xu, Y.D. Peng, Y.P. Zhang, et al. – 2016
📘 Femtosecond pulse generation with an a-cut Nd:CaYAlO4 disordered crystal
🔁 12 citations
