9月18日 PRODUCTION of GYROTRONS in GYCOM Ltd

　　报告题目：PRODUCTION of GYROTRONS in GYCOM Ltd

　　报告时间：9月18日（星期三）上午10:00-11:30

　　报告地点：EAST控制大厅三楼会议室

　　报告人：Elena Soluianova

　　Head of the design-testing department, deputy director，GYCOM

　　主持人：王晓洁 微波技术研究室 主任

　　报告简介：

　　Gyrotrons and their Applications in High-Power Microwave Systems

　　Gyrotrons are high-power vacuum electronic devices that operate on the principle of electron cyclotron resonance. They are capable of producing high-frequency microwave radiation, which is used in a variety of applications such as plasma heating for fusion energy research, materials processing, and medical therapy. The unique design of gyrotrons allows them to generate megawatts of power at frequencies ranging from the microwave to the terahertz region.

　　Gycom, a leading company in the field, has been actively involved in the development and production of gyrotrons for several decades. Their commitment to innovation has led to significant advancements in gyrotron technology, making them a key player in the international market.

　　The company offers a diverse range of gyrotron types, each tailored to meet the specific requirements of different applications. From compact gyrotrons designed for portable systems to high-power models for industrial use, Gycom's product line is versatile and robust.

　　The design of gyrotrons is a complex process that involves a deep understanding of both electromagnetic theory and plasma physics. Gycom engineers use state-of-the-art simulation tools to optimize the design for efficiency and reliability. The design phase includes the selection of the appropriate cavity geometry, the determination of the magnetic field strength, and the calculation of the electron beam parameters.

　　Manufacturing gyrotrons is a meticulous process that requires precision and expertise. Gycom's manufacturing facilities are equipped with advanced machinery capable of handling the delicate components of the gyrotron. The process includes the assembly of the electron gun, the fabrication of the interaction cavity, and the integration of the magnet system.

　　The factory operations at Gycom encompass a wide range of activities, from mechanical processing to vacuum operations and chemical technologies. Precision machining is essential for creating the intricate parts of the gyrotron, while maintaining a vacuum environment is crucial for the device's performance. Chemical treatments are also applied to ensure the longevity and stability of the components.

　　Testing benches at Gycom are designed to rigorously evaluate the performance of each gyrotron. These tests include checking the output power, frequency stability, and beam quality. The testing process is critical for ensuring that each gyrotron meets the high standards set by Gycom and its customers.

　　In conclusion, Gycom's dedication to the advancement of gyrotron technology has led to significant contributions in the field of high-power microwave systems.