Dr. Jia-Qi Lü is an associate professor at Hebei University of Technology, specializing in optics and photonics. After obtaining his Ph.D. in Optics from Nankai University in 2019, he quickly transitioned to an academic career, joining Hebei University of Technology in the same year. His work spans multiple facets of light field manipulation, including vortex optical beams, vector optical beams, and the rotational Doppler effect. Dr. Lü’s research has led to more than 20 high-quality publications as a first author or corresponding author in top-tier journals like Optics Express, APL Photonics, and Applied Physics Letters. His interdisciplinary approach combines optics with applications in laser measurement, biomedical engineering, and 3D bioprinting, emphasizing both theoretical advancements and experimental applications. His rapidly growing academic profile earned him an appointment as an associate professor in 2023, signifying his leadership within his research domain.
Professional Profile
Education:
Dr. Jia-Qi Lü completed his undergraduate and master’s studies in Optics, culminating in a Ph.D. from Nankai University, where he specialized in optics and photonics. He obtained his Ph.D. on June 30, 2019, laying the foundation for his research career. His doctoral work focused on light field manipulation and the interaction between light and matter, providing a strong basis for his future investigations into optical fields, structured light, and laser measurement technologies. His education has been pivotal in shaping his research expertise, enabling him to tackle both theoretical and experimental challenges in photonics and optics. The comprehensive academic foundation from Nankai University has been complemented by his ongoing self-driven learning, as he continues to expand his knowledge base in related fields such as 3D bioprinting, AI algorithms for medical diagnostics, and novel optical techniques.
Professional Experience:
Dr. Jia-Qi Lü joined Hebei University of Technology in 2019 after completing his Ph.D., where he has made substantial contributions to both teaching and research. Appointed as an associate professor in 2023, he now leads a vibrant research group focused on structured light and its applications. His role involves mentoring graduate students, supervising research projects, and developing new methodologies in optics and photonics. Over the years, Dr. Lü has collaborated with various institutions and researchers, helping advance cutting-edge technologies like laser-based measurement techniques and 3D bioprinting. His work has been acknowledged by peers and recognized in top academic publications, further solidifying his reputation as a rising expert in his field. His academic journey, marked by his transition from a doctoral researcher to an associate professor, highlights his growth in both leadership and research contributions.
Research Interests:
Dr. Jia-Qi Lü’s research interests lie at the intersection of optics, photonics, and applied physics. His primary focus is on structured light, vortex optical beams, and vector optical beams, with an emphasis on their manipulation for advanced applications in laser measurement and biomedical engineering. He has extensively studied the rotational Doppler effect, exploring its potential in high-precision angular velocity measurements. In addition, his work extends to interdisciplinary areas such as 3D bioprinting, where he investigates the use of laser technologies for biomedical applications. His research contributions also include AI-driven algorithms for real-time medical diagnostics, particularly in detecting colorectal polyps during colonoscopy. Dr. Lü’s investigations aim to merge the theoretical understanding of optical phenomena with practical applications, pushing the boundaries of how light can be harnessed in various scientific and industrial contexts.
Research Skills:
Dr. Jia-Qi Lü possesses a robust skill set in both theoretical and experimental optics. He is skilled in designing and manipulating complex optical systems, including structured light fields and vortex beams. His proficiency extends to the development of novel experimental setups for laser-based measurements, particularly those involving rotational Doppler effects and angular velocity detection. In addition, Dr. Lü has extensive experience with advanced computational methods, including the use of artificial intelligence algorithms in biomedical diagnostics. His expertise also includes 3D bioprinting, where he has worked on optimizing materials and processes for printing in the biomedical sector. Dr. Lü’s ability to combine theoretical physics with experimental techniques positions him as a leader in the field of optics and photonics, driving innovations across multiple domains.
Awards and Honors:
Dr. Jia-Qi Lü’s research contributions have been recognized within the scientific community through numerous publications in prestigious journals and his rapid advancement within academia. Although specific awards are not listed in the provided details, his appointment as an associate professor at Hebei University of Technology reflects recognition of his expertise and leadership potential. His research on cutting-edge topics such as 3D bioprinting, laser measurement techniques, and advanced optical systems has also garnered attention from peers in the field. As his academic career progresses, further recognition through awards and funding opportunities seems likely, given his promising trajectory and growing reputation in optics and photonics.
Conclusion:
Dr. Jia-Qi Lü is an innovative and highly promising researcher in the field of optics. His work on structured light, vortex beams, and the rotational Doppler effect has contributed significantly to both theoretical advancements and practical applications in photonics and biomedical engineering. With over 20 publications in high-impact journals and a growing role in academia as an associate professor, he is establishing himself as a leading figure in his field. Dr. Lü’s interdisciplinary research approach, combining optics with cutting-edge technologies like AI and 3D bioprinting, is paving the way for future breakthroughs in both scientific understanding and real-world applications. As his academic journey continues, his growing body of work and leadership in the research community position him for further recognition and success in the years ahead.
Publications Top Notes
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Title: Digital Light Processing 3D Printing Technology in Biomedical Engineering: A Review
Year: 2025
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Title: On-demand spatial modes and vortex beams from a visible Pr:YLF orbital Poincaré laser with a hybrid pumping scheme
Year: 2025
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Title: The manipulation of spin angular momentum for binary circular Airy beam during propagation
Year: 2024
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Title: High-order LG vortex Pr:YLF laser emitting in the visible wavelength range for the measurement of angular velocity
Year: 2024
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Title: Self-healing propagation of a longitudinally varying vector optical beam for distance measurement
Year: 2024
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Title: Manipulation of local angular momentum in the tightly focused optical field via the variation of polarization in radial direction
Year: 2024
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Title: Artificial intelligence algorithms for real-time detection of colorectal polyps during colonoscopy: a review
Year: 2024
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Title: Projection algorithm and its optimizations for computed axial lithography: A review
Year: 2024
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Title: Tight focusing of the vector optical field with polarization varying along complex curves of the Poincaré sphere
Year: 2024
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Title: Robust measurement of angular velocity based on rotational Doppler effect in misaligned illumination
Year: 2023