Your search keyword '"Honggang Hao"' showing total 17 results

1. Transmission-Reflection-Integrated Full-Space Metasurface for OAM Beam Generation.

Author

Honggang Hao, Siyao Li, Wen Huang, Yi Shen, Zonggui Li, and Ting Zhang

Subjects

ANGULAR momentum (Mechanics), WIRELESS communications, SUBSTRATES (Materials science), ANISOTROPY, MULTIPLEXING

Abstract

In this paper, a spatial-multiplexing-based transmission-reflection-integrated full-space metasurface (FS-MS) is proposed, which is applied to the generation of orbital angular momentum (OAM) beam. Using the principles of anisotropy and spatial multiplexing, the metasurface element is designed. The element consists of three dielectric substrates and four metal layers, which are of conventional cross-shaped and slotted cross-shaped construction. The designed element has the ability to independently modulate transmitted and reflected electromagnetic (EM) waves at 15 GHz. When EM waves with different polarizations are incident, the metasurface is capable of transmission at the incident x-polarized waves and reflection at the incident y-polarized waves. Using the designed element, the FSMS was designed by combining the theories of OAM beam generation and phase superposition. The results show that the metasurface can generate the OAM beam with the topological charge of +2 in the transmission mode and +3 in the reflection mode at 15 GHz. The purity of the generated OAM beam is 78.88% in transmission mode and 72.87% in reflection mode. The metasurface proposed in this paper is characterized by the integration of transmission and reflection, which is valuable for applications in wireless communications, sensing, and imaging. [ABSTRACT FROM AUTHOR]

Published

2025

2. Linear-to-Circular Polarization Conversion Metasurfaces with Multibeam for Ka-Band Satellite Applications.

Author

Jinfeng He, Honggang Hao, Ting Zhang, Dan Yin, and Zhilin Zou

Subjects

UNIT cell, TELECOMMUNICATION satellites, SUBSTRATES (Materials science), BANDWIDTHS, DIELECTRICS

Abstract

In this paper, a transmissive linear-to-circular polarization conversion (LCPC) multibeam metasurface is presented which shows promise for point-to-multipoint transmission in satellite communications under interference conditions. The unit cell consists of four identical metal layers and three dielectric substrates, where each metal layer includes a square ring and a cross-shaped structure. By altering the arm length of the cross-shaped structure, independent control of the phase of x- and y-polarized waves can be achieved. Thus, by keeping the amplitude of the x- and y-polarized waves equal and the phase difference at 90◦ , LCPC is realized. Based on the multibeam superposition theorem, the metasurface array is arranged using four discrete elements with a phase gradient of 90◦ . It can convert linearly polarized (LP) waves into right-handed circularly polarized (RHCP) waves and generate transmitted multibeam at predetermined angles and gain ratios. Three-beam LCPC metasurfaces with equal and unequal gain in the Ka-band (26 to 40 GHz) were demonstrated to validate the proposed unit cell and methods. The equal gain metasurface has an approximate 6% bandwidth for the 3 dB axial ratio (AR) and a 6% bandwidth for the 1 dB realized gain. Furthermore, at the center frequency of 30 GHz, the unequal gain metasurface achieves gains of 22.9 dBi, 19.7 dBi, and 17.3 dBi, respectively, with an AR of less than 2 dB for all three beams. [ABSTRACT FROM AUTHOR]

Published

2024

3. Combining of Phase Cancellation and Absorption for Broadband High RCS Reduction Metasurface Design.

Author

Honggang Hao, Yi Shen, Wen Huang, Siyao Li, and Zonggui Li

Subjects

RADAR cross sections, ELECTROMAGNETIC waves, BACKSCATTERING, CURVATURE, BANDWIDTHS

Abstract

To enhance the reduction of radar cross section (RCS) and improve stealth performance, a phase cancellation and absorbing metasurface (PCAM) is designed in this paper. The PCAM is composed of a chessboard layout of circular units and square units, and it not only converts absorbed incident electromagnetic waves into heat to reduce the intensity of reflected electromagnetic waves but also simultaneously controls the phase of the reflected electromagnetic waves, achieving phase cancellation. This enables the metasurface to be exhibited with ultralow backscatter. After simulation verification, the metasurface can achieve RCS reduction of over 15 dB in the 4.3-11 GHz range for vertical incidence, with a fractional bandwidth of approximately 87.6% and over 15 dB in the 5.4-11.2 GHz range for a 30° oblique incidence, demonstrating good stability for oblique angles. The metasurface has increased the reduction level from over 10 dB to over 15 dB, significantly enhancing the RCS reduction. Additionally, in the co-planar state with a central curvature of 90°, it can also achieve RCS reduction of over 10 dB in the 3.2-9.9 GHz range, showing significant potential for practical applications. [ABSTRACT FROM AUTHOR]

Published

2024

4. Design of a Three-Channel Frequency Multiplexing Metasurface in Full Space.

Author

Qinxuan Ling, Jinfeng He, Honggang Hao, Zhonglyu Cai, and Min Wang

Subjects

MULTIPLEXING, ELECTROMAGNETIC waves, WAVE functions, WIRELESS communications, RADAR, DEFLECTION (Mechanics)

Abstract

The multifunctional metasurface offers a high degree of flexibility in manipulating electromagnetic waves. However, the majority of its functions are limited to the reflection or transmission space in a single band, restricting the utilization of electromagnetic information. This paper proposes a three-channel multifunctional frequency multiplexing coding metasurface based on the Fabry-Perot cavity principle. It consists of two layers of orthogonal metal gratings and a cross-shaped, oblique open loop structure in the intermediate layer. Simulation results reveal that at an incidence of 22 GHz, the polarization conversion and focusing functions of the transmitted wave are accomplished. Similarly, at an incidence of 31 GHz, the beam deflection function of the reflected wave is observed. Furthermore, at an incidence of 32 GHz, the radar scattering cross-section reduction function of the reflected wave is achieved. In addition to achieving high efficiency, miniaturization, and compactness, the proposed metasurface effectively enhances the spatial utilization of electromagnetic information. As a result, potential applications in multifunctional integrated systems, including wireless communication, sensing technologies, and radar systems, are vast. [ABSTRACT FROM AUTHOR]

Published

2024

5. A Research Based on Transmissive Amplitude-Phase Dual Control about Generating High Quality Vertex Beam.

Author

Honggang Hao, Pan Tang, Bao Li, and Zhonglyu Cai

Subjects

UNIT cell, TELECOMMUNICATION systems

Abstract

Orbital angular moment modes (OAMs) have been proven to be promising resources for increasing communication capacity. To generate wideband and high purity OAM, we have proposed a transmitting metasurface with amplitude-phase dual control. The proposed unit cell is a novel split ring structure with upper and lower grating-like structures. By changing the direction angle and rotation angle of the split-ring unit, the cross-polarization phase response and amplitude response of the unit are controlled respectively. The amplitude distribution of the metasurface array is calculated using Chebyshev synthesis method (CSM). We designed metasurface arrays with mode numbers l = 1, 2, 3, and it generated high purity OAM beams in the frequency band of 22-32 GHz. Compared with traditional phase-control metasurface, amplitude-phase control surface can effectively improve the quality of OAM generation. The results have verified the accuracy of the proposed method, and the proposed method has potential applications in future communication system. [ABSTRACT FROM AUTHOR]

Published

2023

6. Design of Frequency Multiplexed Coding Metasurface for Dual-Functional Beam Control.

Author

Honggang Hao, Qinxuan Ling, Wei Ruan, and Hanhai Xiao

Subjects

MULTIPLEXING, STRUCTURAL optimization

Abstract

A frequency multiplexed coding metasurface controlling beam is proposed to enrich the functions of a single metasurface. A square F4B dielectric substrate with a copper-clad bottom surface and a V-shaped and quadrangular cross-shaped metal structure is used as the unit. Applying the different responses of x and y polarized waves and optimization of structural parameters, we can obtain 1-bit coding units for the two frequency bands. The re ection phase can be modulated independently of each other. The design of a dual-band metasurface with different beam splitting effects was realized, achieving the goal of different frequency multiplexing functions on a single metasurface. An RCS reduction of 11 dB at 12 GHz and a double beam splitting at 20 GHz with a pitch angle of ±47:6° are achieved by metasurface. The test results agree well with the simulation results. The proposed metasurfaces offer a simple structure, low cost, good performance, and promising great applications in areas such as frequency multiplexed communications. [ABSTRACT FROM AUTHOR]

Published

2022

7. Design of Circular Polarization Multiplexing Beam Splitter Based on Transmission Metasurface.

Author

Honggang Hao, Yihao Tang, Sen Zheng, Xuehong Ran, and Wei Ruan

Subjects

CIRCULAR polarization, BEAM splitters, UNIT cell, GEOMETRIC quantum phases, POLYMERASE chain reaction, ELECTROMAGNETIC waves

Abstract

A circular polarization multiplexing metasurface beam splitter operating at 15 GHz with polarization conversion effect is proposed. The unit cell is formed by alternately stacking 4 layers of metal and 2 layers of dielectric substrates cascaded along the propagation direction, separated by air. The resonant phase of the unit cell can be changed by changing the size parameters of the two arms of the metal cross patch, and the phase coverage of nearly 360° can be achieved in the direction of the two orthogonal linear polarization components, while transmission coefficient is above 85%. The circular polarization geometric phase covering 360° can be achieved by rotating the metal patch. The polarization conversion of the circularly polarized wave can be realized by setting the phase difference of the two orthogonal linear polarization components to 180°, and the polarization conversion ratio (PCR) at the working frequency is greater than 90%. The simulation and test results show that when the circularly polarized electromagnetic wave is perpendicularly incident on the metasurface beam splitter, the transmitted wave is divided into two circularly polarized waves with different exit angles and orthogonal to the polarization direction of the incident wave. This work may provide new ideas for the integration and miniaturization of traditional beam splitting devices and have important application prospects in fields such as multiple input multiple output (MIMO) systems. [ABSTRACT FROM AUTHOR]

Published

2022

8. Design of Electromagnetic Wave Multi-Type Focusing Based on 1-bit Metasurface.

Author

Honggang Hao, Sen Zheng, Yihao Tang, and Xuehong Ran

Subjects

RADIO frequency identification systems, WIRELESS power transmission, MICROWAVE imaging, REFLECTANCE, ELECTRIC fields

Abstract

Aiming at the focusing of near-field electromagnetic (EM) energy, a design approach of multi-type focusing (MTF) based on 1-bit metasurface is proposed in this paper. The surface electric field required for multi-focus is actually obtained by the superposition of the surface electric field of each single focus. This method can flexibly design the number, position, and energy distribution ratio of the focus according to the phase arrangement of the metasurface. Dipole structure is used as “0” and “1” unit of 1-bit metasurface. The phase difference of reflection is 180◦, and the reflection coefficient is over 90% in 7.4–21.9 GHz. Using this 1-bit unit, the linear focus metasurface, multi-focus metasurface, and metasurface generating two foci with different energy distribution are realized respectively. The energy distribution metasurface was manufactured and measured, and the measured results are consistent with the simulations. The design method used in this paper is simple and effective to realize multifocus metasurface design and has potential application value in microwave imaging, radio frequency identification (RFID), and wireless power transmission. [ABSTRACT FROM AUTHOR]

Published

2021

9. Design of Dual-Beam Reflection Based on 2-Bit Coding Metasurfaces.

Author

Honggang Hao, Ting Zhang, Wei Ruan, and Bin Wang

Subjects

REFLECTIONS, CIPHERS, DESIGN

Abstract

In general, a single beam reflection can be realized by 2-bit coding metasurfaces. In order to obtain multi-beam reflection, a design method for coding sequence based on 2-bit coding metasurfaces is proposed, which can manipulate the direction of reflected beams by 2-bit addition rule and control the number of reflected beams by addition theorem on complex codes. This method simplifies the design process of coding sequence, and the direction and number of multi-beams can be flexibly designed. In this paper, the design of dual-beam reflection is taken as an example to illustrate the design process of coding sequence. Both simulation and measurement results show that the designed metasurface realizes the dual-beam reflection, and the direction of reflected beams is consistent with expectations. The proposed method is of great significance for the design of multi-beam reflection based on coding metasurfaces. [ABSTRACT FROM AUTHOR]

Published

2020

10. Small-Size Broadband Coding Metasurface for RCS Reduction Based on Particle Swarm Optimization Algorithm.

Author

Honggang Hao, Shimiao Du, and Ting Zhang

Subjects

MATHEMATICAL optimization, RADAR cross sections, PARTICLE swarm optimization, PLATING, UNIT cell

Abstract

Radar cross section (RCS) reduction technology has great significance in stealth and other fields. A PSO-FSP algorithm is proposed based on the particle swarm optimization algorithm and the far-field scattering characteristics of coding metasurface to obtain the optimized coding sequence for RCS reduction. According to the principle of coding metamaterial, a 1 bit cell structure is designed. Therefore, a coding metasurface is constructed by arranging the unit cells based on the optimized coding sequence. Simulation results show that, in the case of vertical incidence, compared with metal plates of the same size, the metasurface can achieve more than 10 dB of RCS reduction within the broadband range from 15GHz to 35GHz, and the maximum reduction can reach 36 dB. The proposed coding metasurface has been successfully fabricated and measured, and there is a good agreement between simulated and measured results. [ABSTRACT FROM AUTHOR]

Published

2019

11. Miniaturized HMSIW Bandpass Filter Based on the Coupling of Dual-Iris with Nested Stepped-Impedance CSRRs.

Author

Bo Yin, Zhangyao Lin, Honggang Hao, Wei Luo, and Wen Huang

Subjects

BANDPASS filters, PRODUCT returns, ELECTRIC inductance, RESONATORS

Abstract

A novel miniaturized bandpass half-mode substrate integrated waveguide (HMSIW) filter which uses dual-iris coupling method to load complementary split-ring resonators (CSRRs) into HMSIW is proposed in this paper. By modifying traditional CSRRs through nesting method combined with step impedance structure, a nested stepped-impedance complementary split-ring resonator (NSICSRR) structure with higher equivalent capacitance and inductance of CSRR is obtained. Based on the traditional single-iris coupling method, a dual-iris coupling method is developed. And NSICSRR is loaded into HMSIW by using the dual-iris coupling method, which can reduce the resonant frequency of the structure. In order to verify the effectiveness of the technology above in realizing the miniaturization of HMSIW filter, a second-order HMSIW filter is designed and measured. It can be found in the measured results that the filter has the center frequency of 6.35GHz, the 3 dB bandwidth of 690MHz, the return loss of better than 14 dB within the passband, and the size of 0.0396λg². The experimental results are basically consistent with the simulation ones. [ABSTRACT FROM AUTHOR]

Published

2019

12. Dual-wideband dual-polarised magnetoelectric dipole antenna for 4G/5G microcell base station.

Author

Congcong Zhu, Bin Wang, Wei Luo, Honggang Hao, and Ping Wang

Subjects

DIPOLE antennas, MULTIFREQUENCY antennas, STANDING waves, ANTENNAS (Electronics), RADIATION

Abstract

A novel dual-wideband dual-polarised magnetoelectric (ME) dipole antenna for the fourth generation (4G)/fifth generation (5G) microcell base station is proposed. Using a pair of orthogonal ME dipoles and Γ-shaped tapered cross feeding lines, the initial antenna achieves dual-band and dual-polarised. Then, four U-shaped gaps, added in electric dipoles, effectively extend the lower impedance bandwidth. Finally, a circular parasitic patch with capacitive properties is innovatively loaded above the ME antenna, which obviously reduces the high-resonant frequency from 5.5 to 4.9 GHz. Meanwhile, a box-shaped reflector is employed to achieve stable gain and radiation patterns. As a result, the measured results show the good dual-wideband performance of 52.4% (2.14--3.66 GHz) and 7.4% (4.68--5.04 GHz) with voltage standing wave ratio (VSWR) < 2, high isolation (>25 dB) and high gain (9.5 and 5.5 dBi, respectively). In addition, a stable radiation pattern with a half-power beam width of 63.5°+6.8° and good cross-polarisation discrimination (>20 dB) on the E-plane is realised over these two bands. [ABSTRACT FROM AUTHOR]

Published

2020

13. A Novel Compact CRLH Bandpass Filter on CSRR-Loaded Substrate Integrated Waveguide Cavity.

Author

Bo Yin, Zhangyao Lin, Xu Cai, Honggang Hao, Wei Luo, and Wen Huang

Subjects

BANDPASS filters, SUBSTRATE integrated waveguides, WAVEGUIDES

Abstract

A compact composite right/left-handed (CRLH) bandpass filter with wide out-of-band rejection, which utilizes a substrate integrated waveguide (SIW) and modified complementary split-ring resonators (CSRRs) is presented. By incorporating two sets of CSRRs resonators (the top and bottom CSRRs) into SIW cavity, the proposed filter obtains a high selectivity. Besides, the filter has the CRLH property, and no additional areas are required because of the structure of the top CSRRs and the gap between them. At the same time, two slots of etched units used in feeding lines are replaced to obtain a wide out-of-band rejection. Finally, the measured results show that the filter has a wide stopband with rejection over 20 dB up to 4.3 times of the center frequency, implying that the experimental results are in good agreement with simulated ones. [ABSTRACT FROM AUTHOR]

Published

2018

14. Backscattering from Electrically Large Target above Nonlinear Sea Surface.

Author

Wei Luo, Yuqi Yang, and Honggang Hao

Subjects

BACKSCATTERING, OCEAN surface topography, FAST Fourier transforms

Abstract

The composite scattering of an electrically large target above nonlinear sea surface is analyzed based on the reciprocity theorem. The two-dimensional nonlinear sea surface is simulated with the Fast Fourier transform (FFT), with which the phase modified two-scale method is utilized to calculate the scattering field of the wind-driven sea surface. The electromagnetic currents of the sea surface, which are excited with plane wave, are calculated with the iterated Kirchhoff approximation (KA). The coupling scattering between the target and the sea surface, which includes the complex scattering matrix of composite scattering, is ingeniously reduced to the integrals involving the target scattering and high order currents of sea surface. A sensitivity analysis is performed for the dependency of the coupling scattering on the target features. The relationship of the full composite scattering model with the sea state is examined, which provides theoretical basis for the target recognition [ABSTRACT FROM AUTHOR]

Published

2017

15. Mutual Impedance of Plasma Antennas.

Author

Bo Yin, Feng Yang, Bin Wang, and Honggang Hao

Published

2011

16. Performance Analyzing of Channel Models for Urban Micro-Cell Communication Environment Based on Electromagnetic Scattering Theory.

Author

Wei Ruan, HongGang Hao, and Fei Tan

Published

2011

17. Wideband filtering power divider with wide rejection bandwidth and isolation.

Author

Honggang Hao and Xingrui Ni

Subjects

BANDWIDTHS, BROADBAND communication systems, POWER dividers, ELECTRIC impedance, ANTENNAS (Electronics)

Abstract

A wideband filtering power divider (FPD) with wide rejection bandwidth and good isolation is presented, based on conventional Wilkinson structure. Parallel coupled lines and two pairs of opencircuit stubs are used for achieving bandpass filtering response and enhancing the performance of the rejection bandwidth. Furthermore, by properly choosing two resistors between two pairs of open-circuit stubs allows good isolation performance. Measured results indicate that the FPD operates at 2.35 GHz (f0) with a - 20 dB bandwidth of 55.3%. In the upper stopband range from 3.7 to 8.8 GHz (3.74f0), the minimum rejection is 20 dB. Within working band, the isolation between the output ports is higher than 24 dB. In addition, ultra-wide isolation better than 20 dB from DC to 10 GHz is obtained. [ABSTRACT FROM AUTHOR]

Published

2019