An efficient multipaction suppression method in microwave components for space application

Cui, Wanzhao; Li, Yun; Yang, Jing; Hu, Taotao; Wang, Xinbo; Wang, Rui; Zhang, Na; Zhang, Hongtai; He, Yongning

doi:10.1088/1674-1056/25/6/068401

Cited by 13 publications

(3 citation statements)

References 28 publications

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“…[32] Conventional metallic microwave structures are also not suitable for applications requiring low-weight structures, such as space/ satellite communications. [33][34][35] Furthermore, in sensing applications, the metallic elements of microwave structure are not interactive in the presence of target analytes; thus, requiring the integration of additional interface materials in the structure to enable a sensitivity mechanism. [36,37] The integration or replacement of metallic structures with 2D nanomaterials and polymers, such as carbon nanotubes, graphene, reduced graphene oxides (rGOs), and Poly(3,4-ethylenedioxythiophene: poly(styrenesulfonate) PEDOT: PSS has attracted significant interest in the recent years.…”

Section: Introductionmentioning

confidence: 99%

MXene Free Standing Films: Unlocking the Impact of Flake Sizes in Microwave Resonant Structures in Humid Environments

Niksan

Wyatt

Kazemi

et al. 2023

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Microwave communication devices necessitate elements with high electrical conductivity, a property which was traditionally found in metals (e.g., copper). However, in applications such as satellite communications, metals prevent the payload from achieving lightweight and flexible characteristics. Here, we demonstrate the development of MXene film microwave resonators, leveraging MXene's high electrical conductivity and unique mechanical properties. To investigate resonant performance in humid conditions and study the effects of MXene's processing and treatment, MXene films with different flake sizes are prepared and exposed to cyclic humidity. For the large‐ and small‐flake Ti3C2 MXene films in cyclic humidity, the large‐flake film demonstrates higher electrical conductivity, higher resonance quality factor (150 and 35 as unloaded, and loaded), and less fluctuation of performance (≈1.7% total shift in resonance frequency). Further, by implementing MXene films of two different diameters, the correlation between film size and resonant frequency is demonstrated. By introducing an active resonant configuration, the effect of MXene degradation and microwave losses can be compensated. This active feedback loop demonstrates a ≈300 times increase in the quality factor of MXene resonators. As a building block for terrestrial and satellite communication modules, MXene resonators potentiate the replacement of metals in achieving unique electrical and mechanical properties.

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Section: Introductionmentioning

confidence: 99%

MXene Free Standing Films: Unlocking the Impact of Flake Sizes in Microwave Resonant Structures in Humid Environments

Niksan

Wyatt

Kazemi

et al. 2023

Small

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“…Generally, the multipactor effect is strongly related to the secondary electron yield (SEY) of the materials. [10][11][12] The two most commonly used methods to suppress SEY effects are micro-trapping structure surface [13][14][15][16][17] and surface coating with low SEY materials. [8] Ye et al reduced the maximum secondary electron emission coefficient (δ max ) by 60% by fabricating the triangular raised structures.…”

Section: Introductionmentioning

confidence: 99%

Effect of Cu doping on the secondary electron yield of carbon films on Ag-plated aluminum alloy

Hu¹,

Zhu²,

Zhao³

et al. 2022

Chinese Phys. B

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Reducing the secondary electron yield (SEY) of Ag-plated aluminum alloy is important for high-power microwave components. In this work, Cu doped carbon films are prepared and the secondary electron emission characteristics are studied systematically. The secondary electron coefficient δ max of carbon films increases with the Cu contents increasing at first, and then decreases to 1.53 at a high doping ratio of 0.645. From the viewpoint of surface structure, the higher the content of Cu is, the rougher the surface is, since more cluster particles appear on the surface due to the small solid solubility of Cu in the amorphous carbon network. However, from viewpoint of the electronic structure, the reduction of the sp2 hybrid bonds will increase the SEY effect as the content of Cu increases, due to the decreasing probability of collision with free electrons. Thus, the two mechanisms would compete and coexist to affect the SEY characteristics in Cu doped carbon films.

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“…SEY significantly affects the multipactor threshold. [11][12][13][14][15][16] Vaughan's formulism was based on a semi-empirical equation fitted to the total secondary electron yield for a given material. [1,17,18] Furman and Pivi gave a model that distinguished different physical mechanisms and probabilities of secondary electron emission, including inelastic and elastic scatterings.…”

Section: Introductionmentioning

confidence: 99%

An improved secondary electrons energy spectrum model and its application in multipactor discharge

Cui

Zhang

et al. 2018

Chinese Phys. B

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Secondary electron emission (SEE) of metal and dielectric materials plays a key role in multipactor discharge, which is a bottle neck problem for high-power satelliate components. Measurements of both the secondary electron yield (SEY) and the secondary electron energy spectrum (SES) are performed on metal samples for an accurate description of the real SEE phenomenon. In order to simplify the fitting process and improve the simulation efficiency, an improved model is proposed for the description of secondary electrons (SE) emitted from the material surface, including true, elastic, and inelastic SE. Embedding the novel SES model into the electromagnetic particle-in-cell method, the electronic resonant multipactor in microwave components is simulated successfully and hence the discharge threshold is predicted. Simulation results of the SES variation in the improved model demonstrate that the multipactor threshold is strongly dependent on SES. In addition, the mutipactor simulation results agree quite well with the experiment for the practical microwave component, while the numerical model of SEY and SES fits well with the sample data taken from the microwave component.

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An efficient multipaction suppression method in microwave components for space application

Cited by 13 publications

References 28 publications

MXene Free Standing Films: Unlocking the Impact of Flake Sizes in Microwave Resonant Structures in Humid Environments

MXene Free Standing Films: Unlocking the Impact of Flake Sizes in Microwave Resonant Structures in Humid Environments

Effect of Cu doping on the secondary electron yield of carbon films on Ag-plated aluminum alloy

An improved secondary electrons energy spectrum model and its application in multipactor discharge

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