![The second anode block geometry chosen for the rising sun magnetron... | Download Scientific Diagram The second anode block geometry chosen for the rising sun magnetron... | Download Scientific Diagram](https://www.researchgate.net/publication/282705278/figure/fig2/AS:283092112691201@1444505827163/The-second-anode-block-geometry-chosen-for-the-rising-sun-magnetron-simulations-with.png)
The second anode block geometry chosen for the rising sun magnetron... | Download Scientific Diagram
![The rising sun magnetron model from the ICEPIC simulation showing 10... | Download Scientific Diagram The rising sun magnetron model from the ICEPIC simulation showing 10... | Download Scientific Diagram](https://www.researchgate.net/publication/258532584/figure/fig3/AS:297367002730497@1447909226065/The-rising-sun-magnetron-model-from-the-ICEPIC-simulation-showing-10-cavities-of-two.png)
The rising sun magnetron model from the ICEPIC simulation showing 10... | Download Scientific Diagram
![Figure 1 from Investigation of a 12-cavity rising-sun relativistic magnetron with diffraction output using particle-in-cell simulation | Semantic Scholar Figure 1 from Investigation of a 12-cavity rising-sun relativistic magnetron with diffraction output using particle-in-cell simulation | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/21eb84aa9310b8a6ccf7187861a4d3d0b551d814/1-Figure1-1.png)
Figure 1 from Investigation of a 12-cavity rising-sun relativistic magnetron with diffraction output using particle-in-cell simulation | Semantic Scholar
![Investigation of the operating characteristics of a 12-cavity rising-sun relativistic magnetron with diffraction output using particle-in-cell simulations: Physics of Plasmas: Vol 23, No 5 Investigation of the operating characteristics of a 12-cavity rising-sun relativistic magnetron with diffraction output using particle-in-cell simulations: Physics of Plasmas: Vol 23, No 5](https://aip.scitation.org/action/showOpenGraphArticleImage?doi=10.1063/1.4948467&id=images/medium/1.4948467.figures.f1.gif)
Investigation of the operating characteristics of a 12-cavity rising-sun relativistic magnetron with diffraction output using particle-in-cell simulations: Physics of Plasmas: Vol 23, No 5
![Tunable rising-sun relativistic magnetron at Physics International.... | Download Scientific Diagram Tunable rising-sun relativistic magnetron at Physics International.... | Download Scientific Diagram](https://www.researchgate.net/publication/336456653/figure/fig11/AS:898442515709965@1591216796885/Tunable-rising-sun-relativistic-magnetron-at-Physics-International-This-relativistic.png)
Tunable rising-sun relativistic magnetron at Physics International.... | Download Scientific Diagram
![The rising sun magnetron model from the ICEPIC simulation showing 10... | Download Scientific Diagram The rising sun magnetron model from the ICEPIC simulation showing 10... | Download Scientific Diagram](https://www.researchgate.net/profile/Jim-Browning/publication/258532584/figure/fig5/AS:297367002730500@1447909226125/ICEPIC-results-for-the-cylindrical-cathode-at-a-645-ns-before-oscillation-and-b_Q320.jpg)
The rising sun magnetron model from the ICEPIC simulation showing 10... | Download Scientific Diagram
Design and development of field emission based rising-sun magnetron for industrial applications using CFDTD PIC simulations
![Airborne radar. Airplanes; Guided missiles. DEGREE OF STRAPPING Fig. 11-6 Effect of Strapping upon Mode Separation for an Eight-Resonator System.. Fig. 11-7 Rising-Sun Resonant System for Magnetron. dimensions. This results in Airborne radar. Airplanes; Guided missiles. DEGREE OF STRAPPING Fig. 11-6 Effect of Strapping upon Mode Separation for an Eight-Resonator System.. Fig. 11-7 Rising-Sun Resonant System for Magnetron. dimensions. This results in](https://c8.alamy.com/comp/RPWXPM/airborne-radar-airplanes-guided-missiles-degree-of-strapping-fig-11-6-effect-of-strapping-upon-mode-separation-for-an-eight-resonator-system-fig-11-7-rising-sun-resonant-system-for-magnetron-dimensions-this-results-in-a-wider-separation-of-modes-than-is-found-with-an-unstrapped-system-of-equal-resonators-and-it-is-not-necessary-to-strap-a-rising-sun-anode-there-is-one-important-difference-between-the-mode-spectrum-of-a-strapped-system-and-a-rising-sun-system-with-the-strapped-system-the-desired-k-mode-is-the-lowest-frequency-mode-while-for-the-rising-sun-system-the-desired-tf-RPWXPM.jpg)
Airborne radar. Airplanes; Guided missiles. DEGREE OF STRAPPING Fig. 11-6 Effect of Strapping upon Mode Separation for an Eight-Resonator System.. Fig. 11-7 Rising-Sun Resonant System for Magnetron. dimensions. This results in
Design and development of field emission based rising-sun magnetron for industrial applications using CFDTD PIC simulations
![Rising sun magnetron with the anode block geometry chosen as the first... | Download Scientific Diagram Rising sun magnetron with the anode block geometry chosen as the first... | Download Scientific Diagram](https://www.researchgate.net/publication/282705278/figure/fig1/AS:283092112691200@1444505827123/Rising-sun-magnetron-with-the-anode-block-geometry-chosen-as-the-first-configuration-for.png)
Rising sun magnetron with the anode block geometry chosen as the first... | Download Scientific Diagram
![Five magnetron anode block (rising-sun configuration) hobbing tools | Science Museum Group Collection Five magnetron anode block (rising-sun configuration) hobbing tools | Science Museum Group Collection](https://coimages.sciencemuseumgroup.org.uk/images/469/819/medium_SMG00155161.jpg)
Five magnetron anode block (rising-sun configuration) hobbing tools | Science Museum Group Collection
![Phase-control of a rising sun magnetron using a modulated, addressable, current source: Journal of Vacuum Science & Technology B: Vol 33, No 3 Phase-control of a rising sun magnetron using a modulated, addressable, current source: Journal of Vacuum Science & Technology B: Vol 33, No 3](https://avs.scitation.org/action/showOpenGraphArticleImage?doi=10.1116/1.4916631&id=images/medium/1.4916631.figures.f2.gif)
Phase-control of a rising sun magnetron using a modulated, addressable, current source: Journal of Vacuum Science & Technology B: Vol 33, No 3
![Applied Sciences | Free Full-Text | Parameter Optimization of Hole-Slot-Type Magnetron for Controlling Resonant Frequency of Linear Accelerator 6 MeV by Reverse Engineering Technique Applied Sciences | Free Full-Text | Parameter Optimization of Hole-Slot-Type Magnetron for Controlling Resonant Frequency of Linear Accelerator 6 MeV by Reverse Engineering Technique](https://www.mdpi.com/applsci/applsci-11-02384/article_deploy/html/images/applsci-11-02384-g001.png)