Inventors: Sourav Nandi

This paper focuses on the design and simulation of a high-efficiency ultra-high frequency (UHF) klystron intended for accelerator applications. Klystrons are vacuum tubes used to amplify high-frequency signals, and their performance is critical in particle accelerators. The study involves designing a UHF klystron with enhanced efficiency and power output by optimizing its structure and operating parameters. It includes detailed simulations to predict the klystron's performance, including its efficiency, gain, and frequency stability. The goal is to improve the klystron's effectiveness in delivering high-power RF signals for accelerating particles, thereby advancing accelerator technology and research capabilities. (EEE)