A superconducting magnetic energy storage (SMES) based power modulator is being developed by the Forschungszentrum Karlsruhe for the proposed TESLA (TeV Superconducting Linear Accelerator) project, under development at the Research Centre DESY, Hamburg. Given the high power (25 MW), high dB/dt (above 50 T/s) pulses required for this application, a cored Rutherford cable with copper oxide insulated strands of mixed matrix NbTi conductor was chosen, to minimize AC losses. The modulator magnet will utilize a structure to provide good cooling of the liquid helium cooled conductor. Optimization of the magnet system with respect to stray magnetic field and costs has led us to choose two solenoids in antiparallel orientation. A test solenoid was constructed and tested, to measure conductor performance and AC losses. The current distribution in the individual strands of the cable was measured at different current ramp rates, through the use of low resistance shunts. Results of these tests and calculations are presented, along with details of the full sized magnets for the modulator.
展开▼
机译:Forschungszentrum Karlsruhe正在为提议的TESLA(TeV超导线性加速器)项目开发基于超磁储能(SMES)的功率调制器,该项目正在汉堡DESY研究中心进行开发。考虑到此应用所需的高功率(25 MW),高dB / dt(高于50 T / s)脉冲,选择了带有混合基质NbTi导体的氧化铜绝缘绞合线的Rutherford芯电缆,以最大程度地减少AC损耗。调制器磁体将利用一种结构来提供对液氦冷却导体的良好冷却。关于杂散磁场和成本的磁体系统优化导致我们选择了两个反平行方向的螺线管。构造并测试了一个测试螺线管,以测量导体性能和交流损耗。通过使用低电阻分流器,以不同的电流斜率测量电缆各股中的电流分布。给出了这些测试和计算的结果,以及调制器的完整尺寸磁铁的详细信息。
展开▼
