Xianmin Zhang links relevant research areas such as Optical fiber and Laser in the realm of Optics. Quantum mechanics and Condensed matter physics are two areas of study in which Xianmin Zhang engages in interdisciplinary research. Xianmin Zhang brings together Condensed matter physics and Quantum mechanics to produce work in his papers. Xianmin Zhang combines Optoelectronics and Optics in his research. His work on Artificial intelligence is being expanded to include thematically relevant topics such as Control (management). His Control (management) study typically links adjacent topics like Control theory (sociology). His study connects Artificial intelligence and Control theory (sociology). His Structural engineering study frequently intersects with other fields, such as Finite element method. His study ties his expertise on Structural engineering together with the subject of Finite element method.
His work on Structural engineering as part of general Finite element method research is often related to Topology (electrical circuits), thus linking different fields of science. Structural engineering and Finite element method are commonly linked in his work. Other disciplines of study, such as Quantum mechanics and Optoelectronics, are mixed together with his Optics studies. He integrates Quantum mechanics and Optics in his studies. His study in Control (management) extends to Artificial intelligence with its themes. His study on Control (management) is mostly dedicated to connecting different topics, such as Control theory (sociology). Xianmin Zhang regularly ties together related areas like Artificial intelligence in his Control theory (sociology) studies.
A majority of his Artificial intelligence research is a blend of other scientific areas, such as Algorithm and Robot. He integrates many fields in his works, including Algorithm and Artificial intelligence. Among his research on Telecommunications, you can see a combination of other fields of science like Multiplexing and Electronic engineering. Borrowing concepts from Telecommunications, he weaves in ideas under Electronic engineering. He performs integrative study on Quantum mechanics and Optics in his works. He brings together Optics and Quantum mechanics to produce work in his papers. Structural engineering connects with themes related to Topology optimization in his study. His Topology optimization study frequently links to related topics such as Structural engineering. He performs multidisciplinary studies into Mechanical engineering and Control engineering in his work.
In his study, Line (geometry) is strongly linked to Geometry, which falls under the umbrella field of Bézier curve. In his works, he conducts interdisciplinary research on Line (geometry) and Geometry. He works mostly in the field of Variable (mathematics), limiting it down to topics relating to Mathematical analysis and, in certain cases, Domain (mathematical analysis). Xianmin Zhang integrates many fields, such as Domain (mathematical analysis) and Mathematical analysis, in his works. His biological study deals with issues like Mechanical engineering, which deal with fields such as Engineering design process and Coupling (piping). His study ties his expertise on Mechanical engineering together with the subject of Coupling (piping). His Photocatalysis study falls within the topics of Graphitic carbon nitride, Rhodamine B and Carbon nitride. As part of his studies on Rhodamine B, he frequently links adjacent subjects like Photocatalysis. His multidisciplinary approach integrates Optics and Acoustics in his work.
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Left-handed materials composed of only S -shaped resonators
Hongsheng Chen;Lixin Ran;Jiangtao Huangfu;Xianmin Zhang.
Physical Review E (2004)
Experimental confirmation of negative refractive index of a metamaterial composed of Ω-like metallic patterns
Jiangtao Huangfu;Lixin Ran;Hongsheng Chen;Xian-min Zhang.
Applied Physics Letters (2004)
Optimal placement and active vibration control for piezoelectric smart flexible cantilever plate
Zhi-cheng Qiu;Xian-min Zhang;Hong-xin Wu;Hong-hua Zhang.
Journal of Sound and Vibration (2007)
Multiplexed Millimeter Wave Communication with Dual Orbital Angular Momentum (OAM) Mode Antennas
Xiaonan Hui;Shilie Zheng;Yiling Chen;Yiping Hu.
Scientific Reports (2015)
Input coupling analysis and optimal design of a 3-DOF compliant micro-positioning stage
Hua Wang;Xianmin Zhang.
Mechanism and Machine Theory (2008)
Ray-optics cloaking devices for large objects in incoherent natural light
Hongsheng Chen;Bin Zheng;Lian Shen;Huaping Wang.
Nature Communications (2013)
Mode Division Multiplexing Communication Using Microwave Orbital Angular Momentum: An Experimental Study
Weite Zhang;Shilie Zheng;Xiaonan Hui;Ruofan Dong.
IEEE Transactions on Wireless Communications (2017)
Transmission Characteristics of a Twisted Radio Wave Based on Circular Traveling-Wave Antenna
Shilie Zheng;Xiaonan Hui;Xiaofeng Jin;Hao Chi.
IEEE Transactions on Antennas and Propagation (2015)
Metamaterial exhibiting left-handed properties over multiple frequency bands
Hongsheng Chen;Lixin Ran;Jiangtao Huangfu;Xianmin Zhang.
Journal of Applied Physics (2004)
Ultralow Reflectivity Spiral Phase Plate for Generation of Millimeter-wave OAM Beam
Xiaonan Hui;Shilie Zheng;Yiping Hu;Chen Xu.
IEEE Antennas and Wireless Propagation Letters (2015)
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