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一、发表文章（第一作者、通信作者）

[15] Xiangshuai Meng, Yujie Wang, Haoyu Zhang, et al. Dual-Linear Polarized 2-Bit Reconfigurable Transmitarray at Ku-Band. IEEE Transactions on Antennas and Propagation, 2025, Accepted.

[14] Xiangshuai Meng, Haoyu Zhang, Yujie Wang, et al. A Metal-only Transmission Metasurface With Dual-Layer Configuration for Generation of Orbital Angular Momentum Wave. Journal of Applied Physics, 2025,137(3) :033101.

[13] Xiangshuai Meng, Haoyu Zhang, Yujie Wang, et al. Flat Double-Layer Metal-only metasurface With Polarization-Dependent Operation in C/X Dual Band. Optics Express, 2024, 23(32) :40979-40989.

[12] Xiangshuai Meng, Yujie Wang, Haoyu Zhang, et al. A Double-Layer Metal-Only Transmitarray for Beam Scanning. IEEE Antennas and Wireless Propagation Letters, 2024, 12(23):4782-4786.

[11] Xiangshuai Meng, Haoyu Zhang, Tao Wu, et al. Anisotropic impedance holographic metasurface for near-field imaging. Photonics Research, 2024, 12(10):2226-2234.

[10] Xiangshuai Meng, Haoyu Zhang, Tao Wu, et al. Metal-only anisotropic impedance holographic metasurface. Journal of Physics D: Applied Physics, 2024, 57(50) :395001.

[9] Jiazhi Tang, Xiangshuai Meng*, Bingyi Qian, et al. Optically transparent anisotropic holographic impedance metasurface for launching orbital angular momentum vortex wave. Journal of Physics D: Applied Physics, 2023, 56(39) :395001.

[8] Jiazhi Tang, Xiangshuai Meng(共同一作), Xiaoming Chen, et al. Efficient Angle Calibration Method for Peak Beam Measurements in Transmitarray-Based Compact Antenna Test Range. IEEE Transactions on Electromagnetic Compatibility, 2023, 65(6):1941-1951.

[7] Xiangshuai Meng, Xiaoming Chen, Ruihai Chen, et al. Generation of Multiple High-Order Bessel Beams Carrying Different Orbital-Angular-Momentum Modes through an Anisotropic Holographic Impedance Metasurface. Physical Review Applied, 2021, 16(4):044063.

[6] Xiangshuai Meng, Xiaoming Chen, Lin Yang, et al. Launcher of high-order Bessel vortex beam carrying orbital angular momentum by designing anisotropic holographic metasurface. Applied Physics Letters, 2020,117(24):243503.

[5] Xiangshuai Meng, Jiaji Wu, Zhensen Wu, et al. Generating dual-polarization beams carrying dual orbital angular momentum modes based on anisotropic holographic metasurfaces. Journal of Physics D: Applied Physics, 2019, 52(30) :305002.

[4] Xiangshuai Meng, Jiaji Wu, ZhensenWu, et al. Generation of multiple beams carrying different orbital angular momentum modes based on anisotropic holographic metasurfaces in the radio-frequency domain. Applied Physics Letters, 2019,200114(9) :093504.

[3] Xiangshuai Meng, Jiaji Wu, ZhensenWu, et al. Design, fabrication, and measurement of an anisotropic holographic metasurface for generating vortex beams carrying orbital angular momentum. Optics Letters, 2019, 44(6): 1452-1455.

[2] Xiang-Shuai Meng, Jia-Ji Wu, Zhen-Sen Wu, et al. Design of Multiple-Polarization Reflectarray for Orbital Angular Momentum Wave in Radio Frequency. IEEE Antennas and Wireless Propagation Letters, 2018, 17(12) :2269-2273.

[1] Xiangshuai Meng, Jiaji Wu, Zhensen Wu, et al. Dual-polarized reflectarray for generating dual beams with two different orbital angular momentum modes based on independent feeds in C- and X-bands. Optics Express, 2018, 26(18) :23185-23195.

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