[26] Guo X, Ye J, Wu W. Dual-band Class-X Doherty power amplifier with large frequency ratio[J]. IEEE Microwave and Wireless Technology Letters, 2024.
[25] Ye J, Guo X, Wu W. Resistive-Reactive Class-X power amplifier with bandwidth beyond one octave[J]. Microwave and Optical Technology Letters, 2024.
[24] Guo X, Huang L,Wu W. Frequency scanning array based on dual-band filters with wide scanning range and flat gain[J].IEEE Transactions on Antennas and Propagation, 2024, 72(2): 1971-1976.
[23] Li H, Guo X, Yu T, Zhu L, Wu W. Design of wideband tunable filtering phase shifter with switched TTD or CPD phase mode[J].IEEE Transactions on Circuits and Systems II: Express Briefs, 2024, 71(1): 101-105.
[22] Guo X, Du M, Wu W, Feng Z. Circularly polarized antenna array using filtering phase shifting theory[J].Progress In Electromagnetics Research Letters, 2023,116: 9-16.
[21] Shi H, Guo X, Wu W. Series-fed antenna array without beam deterioration using miniaturized bandpass filters for phase-slope balancing[J].Progress In Electromagnetics Research M, 2023, 121: 27-37.
[20] Zhu L, Guo X, Wu W. Focal plane array fed shaped-beam transmitarray with small gain ripple and low sidelobe level[J]. IEEE Antennas and Wireless Propagation Letters, 2023, 22(7): 1627-1631.
[19] Guo X, Y. Liu, Wu W. Wideband unequal filtering power divider with arbitrary constant power ratio and phase difference[J]. IEEE Transactions on Circuits and Systems II: Express Briefs, 2023, 70(2): 421-425.
[18] Zhu L, Guo X, Wu W, Fang D G. One-dimensional high-gain beam-scanning transmitarray fed by phased array with continuously electronic scan and low scan loss[J]. IET Microwaves, Antennas & Propagation,2022, 16(7): 465-476.
[17] Wang D, Guo X, Wu W. Wideband unequal power divider with enhanced power dividing ratio, fully matching bandwidth, and filtering performance[J]. IEEE Transactions on Microwave Theory and Techniques, 2022, 70(6): 3200-3212.
[16] Guo X, Wu W. Dual-band impedance transformer based on general coupled-resonator filter theory[J]. IEEE Transactions on Circuits and Systems II: Express Briefs, 2022, 69(6): 2727-2731.
[15] Li H, Guo X, Yu T, Zhu L, Wu W. Wideband continuously tunable phase shifter with phase slope tunability and low phase error[J]. IEEE Transactions on Microwave Theory and Techniques, 2022, 70(4): 2147-2155.
[14] Wang D, Guo X, Wu W. Wideband unequal filtering power divider with high power dividing ratio based on line-inserted method[J]. IET Microwaves, Antennas & Propagation,2021, 15(6): 620-628.
[13] Yu T, Guo X, Wu W. Design of filtering impedance transformer with high impedance ratio[J]. IET Electronic Letters, 2020, 56(22): 1172-1174.
[12] Guo X, Zhu L, Wu W. Design of complex weighted feeding network based on generalized coupled-resonator filter topology[J]. IEEE Transactions on Microwave Theory and Techniques, 2019, 67(11): 4376-4385.
[11] Guo X, Zhu L, Wu W. A new concept of partial electric/magnetic walls for application in design of balanced bandpass filters[J]. IEEE Transactions on Microwave Theory and Techniques, 2019, 67(4): 1308-1315.
[10] 吴文,郭欣,张金栋,方大纲. 复权重天线馈电网络的发展现状[J]. 微波学报,2018年05期特邀稿件.
[9] 《Balanced Microwave Filters》的第11章,章节作者Xin Guo, Lei Zhu, Wen Wu,2018年3月由Wiley-IEEE Press出版。
[8] Guo X, Zhu L, Wu W. Design method for multiband filters with compact configuration in substrate-integrated waveguide[J]. IEEE Transactions on Microwave Theory and Techniques, 2018, 66(6): 3011-3018.
[7] Guo X, Zhu L, Wu W. Balanced diplexers based on inner-coupled dual-mode structures with intrinsic common-mode suppression[J]. IEEE Access, 2017, 5: 26774–26782.
[6] Guo X, Zhu L, Wu W. Optimized design of differential moderate-band BPF on coupled slotline resonators[J]. IEEE Microwave and Wireless Components Letters, 2017, 27(3): 263-265.
[5] Guo X, Zhu L, Wu W. A dual-wideband differential filter on strip-loaded slotline resonators with enhanced coupling scheme[J]. IEEE Microwave and Wireless Components Letters, 2016, 26(11): 882-884.
[4] Guo X, Zhu L, Wu W. Balanced wide-/dual-band BPFs on a hybrid multimode resonator with intrinsic common-mode rejection[J]. IEEE Transactions on Microwave Theory and Techniques, 2016, 64(7): 1997-2005.
[3] Guo X, Zhu L, Wu W. Strip-loaded slotline resonators for differential wideband bandpass filters with intrinsic common-mode rejection[J]. IEEE Transactions on Microwave Theory and Techniques, 2016, 64(2): 450-458.
[2] Guo X, Zhu L, Wang J, Wu W. Wideband microstrip-to-microstrip vertical transitions via multiresonant modes in a slotline resonator[J]. IEEE Transactions on Microwave Theory and Techniques, 2015, 63(6): 1902-1909.
[1] Guo X, Zhu L, Tam K W, Wu W. Wideband differential bandpass filters on multimode slotline resonator with intrinsic common-mode rejection[J]. IEEE Transactions on Microwave Theory and Techniques, 2015, 63(5): 1587-1594.