Abstract

A magneto-armored system for a new generation of technological complexes based on CW K-band gyrotrons (28–50 GHz), which operate on the main cyclotron resonance with an output power of 25–30 kW or higher, was developed and experimentally tested. The possibility of creating a homogeneous (better than 0.5%) sector of the magnetic field in the region of the electron–wave interaction with a length of several tens of millimeters has been demonstrated. Optimization of the configuration, shapes, and material that were used for the ferromagnetic screens for solenoids with copper windings and working-hole diameters of several tens of millimeters made it possible to obtain record values of constant magnetic fields with respect to the power consumption. For the operating mode with a uniform section of 65 mm and a magnetic-field induction of 1.03 T, the power consumption of the solenoid was 12.5 kW, which makes it possible to significantly (by ~1.5 times) increase the efficiency of the complex as a whole when using a gyrotron with a full radiation efficiency of nearly 50%, which is significantly superior to the existing analogues.

中文翻译：

---

基于电磁铠装的温电磁阀系统，用于K波段陀螺仪

摘要

研发了一种基于CW K波段回旋管（28–50 GHz）的新一代技术复合体的磁铠装系统，该系统在主回旋加速器谐振下工作，输出功率为25–30 kW或更高， 。已经证明有可能在长度为几十毫米的电子波相互作用区域中创建均匀的磁场扇区（优于0.5％）。用于具有铜绕组和几十毫米的工作孔直径的螺线管的铁磁屏蔽的结构，形状和材料的优化，使得可以获得关于功耗的恒定磁场的记录值。对于均匀截面为65 mm且磁场感应为1.03 T的运行模式，