jiahao guan | Physics | Best Researcher Award

Published on by Best Achievements

Mr. jiahao guan | Physics | Best Researcher Award

Mr. jiahao guan, Northwest University, China.

Jiahao Guan is a passionate 🎓 graduate student at the School of Physics, Northwest University, specializing in optical field manipulation 🔬. His research focuses on light field modulation and laser beam shaping. He has contributed to a National Natural Science Foundation of China project and authored a paper in Optics Communications. Jiahao also holds a patent for a novel method in vortex beam analysis 💡. His work reflects strong potential in advancing modern optics and photonics. ✨

🌟 Professional Profile

🎓 Early Academic Pursuits

Jiahao Guan embarked on his academic journey with a deep-rooted interest in the physical sciences. Currently, he is pursuing a master’s degree at the School of Physics, Northwest University, where he has built a strong foundation in advanced optics and photonics. His early academic years reflect a dedication to understanding the intricacies of light field modulation and the fundamental properties of laser beams.

💼 Professional Endeavors

As a graduate student researcher, Jiahao has delved into experimental and theoretical frameworks that underpin optical science. He actively participates in high-level research projects, demonstrating initiative, discipline, and a drive for innovation. His professional experience is primarily tied to his institution, where he contributes to cutting-edge research environments.

🔬 Contributions and Research Focus On Physics 

Jiahao’s primary research interests lie in optical field manipulation, with a specific focus on light field modulation and laser beam shaping. His work with non-Hermitian topological structures is particularly notable, as evidenced by his involvement in a project funded by the National Natural Science Foundation of China titled “Research on Broadband Dispersion-Free Group Velocity Modulation Based on Non-Hermitian Topological Structures.”

🌍 Impact and Influence

Jiahao’s groundbreaking research has made a valuable contribution to the fields of optical physics and photonic engineering. By pioneering methods to manipulate complex light fields, he has opened avenues for innovation in laser technologies, quantum optics, and imaging systems. His contributions hold promise for future technological applications in communications and precision measurement.

🏆 Awards and Honors

Jiahao has been nominated for the Best Researcher Award, acknowledging his significant contributions in the early stages of his academic career. His published patent, “A Method for Measuring the Topological Charge within a Multi-Vortex Circular Swallowtail Tornado Beam” (CN,ZL202510326256.X), showcases his ability to translate complex theories into practical tools.

🚀 Legacy and Future Contributions

Jiahao aims to continue pushing boundaries in optical science. With a strong foundation in theoretical and applied optics, his future contributions are expected to influence both academic research and industrial applications. As he transitions into advanced research and potential doctoral studies, Jiahao envisions expanding collaborations and pioneering novel technologies that harness the full potential of structured light.

📚Publications Top Notes

📄 Publication Title: Generation and topological charge detection of multiple-vortex circular swallowtail tornado beams
👨‍💼 Authors: Jiahao Guan, Zhenzhu Tong, Hongling Yue, Xinyuan Qi
📚 Journal: Optics Communications
📅 Year: 2025
🔍 Publisher: Elsevier

 

Zihao Huo | Physics | Research Excellence Award

Published on by Best Achievements

Dr. Zihao Huo | Physics | Research Excellence Award

Fuyang Normal University | China

Dr. Zihao Huo is a Doctor at Fuyang Normal University with a strong background in theoretical condensed matter physics and superconductivity research. He earned his bachelor’s degree from the School of Physics and Electronic Information at Luoyang Normal University and completed his doctoral studies in physics at Jilin University under the supervision of Professor Dafang Duan. His research primarily focuses on the theoretical design of hydrogen-based superconductors and the theoretical investigation of nickelate superconductors. Dr. Huo has made significant contributions to the field, including proposing a pressure reduction strategy for covalent hydrides and pioneering studies on room-temperature superconductivity under near-normal pressure, where he critically examined and denied such behavior in the Lu–N–H system. He also introduced geometric factors to quantify superconductivity in double-layer Ruddlesden–Popper phase nickel oxides and investigated the microscopic mechanisms of Pr-doped systems. Additionally, he resolved inconsistencies between theoretical and experimental Fermi surfaces in three-layer Ruddlesden–Popper phase nickel oxides under normal pressure. Dr. Huo has published 22 SCI-indexed journal papers, holds an h-index of 10, and is proficient in first-principles calculations, BCS theory, tight-binding models, and dynamical mean-field theory for strongly correlated electron systems. He is an active member of the Chinese Physical Society.

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Featured Publications


Machine-learning potentials for quantum and anharmonic effects in superconducting LaBeH₈

– Materials Today Physics (Journal Article)

Electronic correlations and Hund’s rule coupling in trilayer nickelate La₄Ni₃O₁₀

– Science China Physics, Mechanics & Astronomy (Journal Article)

First-principles study of the Pr-doped bilayer nickelate La₃Ni₂O₇

– Physical Review B (Journal Article)

First-principles study of high-pressure structural phase transition and superconductivity of YBeH₈

– The Journal of Chemical Physics (Journal Article)

Cubic H₃S stabilized by halogens: High-temperature superconductors at mild pressure

– Science China Physics, Mechanics & Astronomy (Journal Article)