Mr. Weijun Chen is an Associate Professor at the School of Physics, Changchun University of Science and Technology. He earned his Ph.D. in Materials Science from Tianjin University of Technology, specializing in optoelectronic materials and photonic systems ππ . His research focuses on light field modulation, optoelectronic imaging, and perovskite solar cells β‘π·. He has published in top-tier journals and authored a book on transient optoelectronic devices. With funding from national foundations and a growing citation record π, Mr. Chen is driving innovation in optical and energy materials, making him a rising star in the field of materials science π.
Mr. Weijun Chen, Changchun University of Science and Technology, China
Profile
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Education π
Mr. Weijun Chen holds a Ph.D. in Materials Science from Tianjin University of Technology, with a focus on advanced materials for optoelectronic applications ππ. Currently a faculty member at Changchun University of Science and Technology π«, his academic journey merges materials engineering, photonics, and device physics to develop next-generation imaging systems and optical signal control technologies π‘π·. His research addresses critical challenges in optoelectronic imaging and light field modulation, contributing to innovative applications in sensors, communication, and energy devices β‘π. This strong academic foundation supports his impactful work in advanced photonic technologies.
Experience ποΈ
Mr. Weijun Chen holds a Ph.D. in Materials Science from Tianjin University of Technology, where he focused on advanced materials for optoelectronic applications ππ¬. Currently serving as a faculty member at Changchun University of Science and Technology, he leads innovative research in optoelectronic imaging devices and light field modulation technologies π·π§. His interdisciplinary expertise spans materials engineering, photonics, and device physics, enabling the development of high-performance imaging systems and optical signal control platforms ππ‘. Through cutting-edge experimentation and theory, Mr. Chen continues to contribute meaningfully to the future of smart optics and next-gen imaging solutions ππ.
Research Contributions π¬
Mr. Weijun Chenβs research is centered on the application of advanced optical materials, particularly within the realms of optoelectronic devices and light-field modulation π§ π‘. He has made significant strides in understanding the propagation dynamics and nonlinear interaction mechanisms of Airy beams πͺοΈπ‘, which are crucial for beam shaping and precise optical control. Additionally, his work on high-performance perovskite solar cells focuses on enhancing efficiency and surface passivation for sustainable energy applications βοΈπ. These innovations contribute to the future of smart photonic systems and energy-harvesting technologies, placing him at the forefront of materials science and optical engineering ππ.
Research Focus π
Mr. Weijun Chen specializes in optoelectronic imaging devices and light field modulation, pioneering innovations that merge materials science, optics, and device engineering ππ‘. His work involves designing and analyzing advanced systems for capturing and controlling light at high precision, enabling improved imaging technologies and adaptive optics π―π§ . By exploring novel light propagation techniquesβsuch as Airy beamsand integrating them with photonic materials, he aims to develop next-generation optical devices for applications in medical imaging, communications, and energy conversion π‘π·βοΈ. His research drives transformative advances in how we manipulate and utilize light for practical and scientific breakthroughs ππ.
Publications π
A Universal Gain Theory of the Multiplying Layer in EBCMOS Based on Elastic and Inelastic Scattering
π¨βπ¬ Authors: Wene Chen, Weijun Chen, De Song, Peng Zhao, Ye Li, Shuhan Li, Chongxiao Wang, Rongxuan Liang, JiPeng Yue
π Journal: Nuclear Instruments and Methods in Physics Research Section B
Defect Solitons Supported by Optical Lattice with Saturable Nonlinearity in Fractional SchrΓΆdinger Equation
π¨βπ¬ Authors: Shengyao Wang, Tuanjie Xia, Weijun Chen, Peng Zhao
π Journal: Physica Scripta
Interaction of Airy Beams Modeled by the Fractional Nonlinear Cubic-Quintic SchrΓΆdinger Equation
π¨βπ¬ Authors: Weijun Chen, Cheng Lian, Yuang Luo
π Journal: Physica Scripta
Dynamics of Interacting Airy Beams in the Fractional SchrΓΆdinger Equation with a Linear Potential
π¨βπ¬ Authors: Weijun Chen, Tao Wang, Jie Wang, Yining Mu
π Journal: Optics Communications
These publications highlight Mr. Chenβs impactful research in nonlinear optics, beam dynamics, and quantum-inspired optical modeling key areas in modern optoelectronic science.