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A 4.5-W, 18.5–24.5-GHz GaN Power Amplifier Employing Chebyshev Matching Technique Journal article
Yujia, Wang, Jincheng, Zhang, Yong, Chen, Junyan, Ren, Shunli, Ma. A 4.5-W, 18.5–24.5-GHz GaN Power Amplifier Employing Chebyshev Matching Technique[J]. IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 2023, 31(2), 233-242.
Authors:  Yujia, Wang;  Jincheng, Zhang;  Yong, Chen;  Junyan, Ren;  Shunli, Ma
Favorite | TC[WOS]:2 TC[Scopus]:5  IF:2.8/2.8 | Submit date:2023/01/30
Chebyshev Matching Technique  Gallium Nitride (Gan)  Power Added Efficiency (Pae)  Power Amplifier (Pa)  Satellite Communication  Wideband Matching Network  
A Synthesis Method for N-Section Unequal Ultra-Wideband Wilkinson Power Divider With Controllable Equal-Ripple Performance Journal article
Sun,Zizhuo, Wang,Xiaolong, Zhu,Lei, Lu,Geyu. A Synthesis Method for N-Section Unequal Ultra-Wideband Wilkinson Power Divider With Controllable Equal-Ripple Performance[J]. IEEE Access, 2023, 11, 59250-59262.
Authors:  Sun,Zizhuo;  Wang,Xiaolong;  Zhu,Lei;  Lu,Geyu
Favorite | TC[WOS]:3 TC[Scopus]:2  IF:3.4/3.7 | Submit date:2023/08/03
Asymmetric Coupled Line Section (Acls)  First-kind Chebyshev Frequency Response  Ultra-wideband (Uwb)  Wilkinson Power Divider (Wpd)  
A 124-to-152-GHz Power Amplifier Exploiting Chebyshev-Type Two-Section Wideband and Low-Loss Power-Combining Technique in 28-nm CMOS Journal article
Zhang, Jincheng, Wang, Yujia, Chen, Yong, Ren, Junyan, Ma, Shunli. A 124-to-152-GHz Power Amplifier Exploiting Chebyshev-Type Two-Section Wideband and Low-Loss Power-Combining Technique in 28-nm CMOS[J]. IEEE Transactions on Microwave Theory and Techniques, 2022, 71(5), 1852-1865.
Authors:  Zhang, Jincheng;  Wang, Yujia;  Chen, Yong;  Ren, Junyan;  Ma, Shunli
Favorite | TC[WOS]:10 TC[Scopus]:10  IF:4.1/4.2 | Submit date:2023/06/05
Chebyshev  Cmos  Coupled Resonator  D-band  Power Amplifier (Pa)  Slow Wave Coplanar Waveguide (S-cpw)  Transformer  Two-section Wideband Power Combining  
A transformed L1 method for solving the multi-term time-fractional diffusion problem Journal article
She, Mianfu, Li, Dongfang, Sun, Hai wei. A transformed L1 method for solving the multi-term time-fractional diffusion problem[J]. Mathematics and Computers in Simulation, 2022, 193, 584-606.
Authors:  She, Mianfu;  Li, Dongfang;  Sun, Hai wei
Favorite | TC[WOS]:21 TC[Scopus]:21  IF:4.4/3.6 | Submit date:2022/03/28
Chebyshev–galerkin Spectral Method  Error Estimates  Modified L1 Scheme  Multi-term Time-fractional Equation  
A novel $L1$ method for solving the multi-term time-fractional diffusion problem Journal article
She, M. F., Li, D. F., Sun, H. W.. A novel $L1$ method for solving the multi-term time-fractional diffusion problem[J]. Mathematics and Computers in Simulation, 2022, 584-606.
Authors:  She, M. F.;  Li, D. F.;  Sun, H. W.
Favorite | TC[WOS]:21 TC[Scopus]:21  IF:4.4/3.6 | Submit date:2022/07/25
Multi-term Time-fractional Equation  Modified L1 Scheme  Chebyshev–galerkin Spectral Method  Error Estimates  
A Generalized Synthesis Technique for High-Order and Wideband 3-D Frequency-Selective Structures With Chebyshev Functions Journal article
Hanxuan Li, Bo Li, Lei Zhu. A Generalized Synthesis Technique for High-Order and Wideband 3-D Frequency-Selective Structures With Chebyshev Functions[J]. IEEE Transactions on Antennas and Propagation, 2021, 69(7), 3936-3944.
Authors:  Hanxuan Li;  Bo Li;  Lei Zhu
Favorite | TC[WOS]:14 TC[Scopus]:18  IF:4.6/5.0 | Submit date:2021/03/09
Frequency Selective Structures  Synthesis Design  Wide Passband  Sharp Roll-off Skirt  Chebyshev Functions  
Wideband Bandpass Frequency-Selective Structures on Stacked Slotline Resonators: Proposal and Synthetic Design Journal article
Li, Hanxuan, Li, Bo, Zhu, Lei. Wideband Bandpass Frequency-Selective Structures on Stacked Slotline Resonators: Proposal and Synthetic Design[J]. IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2020, 68(10), 7068-7078.
Authors:  Li, Hanxuan;  Li, Bo;  Zhu, Lei
Favorite | TC[WOS]:33 TC[Scopus]:38  IF:4.6/5.0 | Submit date:2021/03/09
Chebyshev Filtering Response  Frequency Selective Structure  Slotline  Synthesis  Wideband  
Wideband bandpass frequency selective structures on stacked slotline resonators: proposal and synthetic design Journal article
Li, Hanxuan, Li, Bo, Zhu, Lei. Wideband bandpass frequency selective structures on stacked slotline resonators: proposal and synthetic design[J]. IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION, 2020, 68(10), 7068-7078.
Authors:  Li, Hanxuan;  Li, Bo;  Zhu, Lei
Favorite | TC[WOS]:33 TC[Scopus]:38  IF:4.6/5.0 | Submit date:2022/08/04
Chebyshev Filtering Response  Frequencyselective Structure  Slotline  Synthesis  Wideband.  
An Angular Displacement Sensor Based on Microstrip Wideband Impedance Transformer with Quasi-Chebyshev Frequency Response Journal article
Hong-Xu Zhu, Pedro Cheong, Kam-Weng Tam, Sut-Kam Ho, Wai-Wa Choi. An Angular Displacement Sensor Based on Microstrip Wideband Impedance Transformer with Quasi-Chebyshev Frequency Response[J]. IEEE Sensors Journal, 2020, 20(8), 4200-4206.
Authors:  Hong-Xu Zhu;  Pedro Cheong;  Kam-Weng Tam;  Sut-Kam Ho;  Wai-Wa Choi
Favorite | TC[WOS]:16 TC[Scopus]:16  IF:4.3/4.2 | Submit date:2021/03/09
Angular Displacement Sensors  Impedance Transformer  Microwave  Quasi-chebyshev  
A two-step inexact Newton-Chebyshev-like method for inverse eigenvalue problems Journal article
Wen,Chao Tao, Chen,Xiao Shan, Sun,Hai Wei. A two-step inexact Newton-Chebyshev-like method for inverse eigenvalue problems[J]. Linear Algebra and Its Applications, 2020, 585, 241-262.
Authors:  Wen,Chao Tao;  Chen,Xiao Shan;  Sun,Hai Wei
Favorite | TC[WOS]:9 TC[Scopus]:8  IF:1.0/1.1 | Submit date:2021/03/09
Chebyshev Method  Cubical Convergence  Inexact Newton-like Method  Inverse Eigenvalue Problem  Two-step