原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2015年
8期
1529-1533
,共5页
李金海%王思力%刘保杰
李金海%王思力%劉保傑
리금해%왕사력%류보걸
高能大功率电子辐照加速器%束流光路%消色散%135°偏转磁铁%整体270°偏转磁铁
高能大功率電子輻照加速器%束流光路%消色散%135°偏轉磁鐵%整體270°偏轉磁鐵
고능대공솔전자복조가속기%속류광로%소색산%135°편전자철%정체270°편전자철
high power electron irradiation accelerator%beam optics%de-dispersion%135° bend magnet%270° bend magnet
为实现高能大功率电子辐照加速器的一机多用目的,需研制270°偏转光路支线。本文采用T race3D程序对270°偏转光路进行了设计与模拟计算,设计了双135°偏转磁铁和整体270°偏转磁铁。对双135°和整体270°两种偏转磁铁元件进行二维和三维电磁场设计与模拟计算,计算结果表明,整体270°偏转磁铁的场分布与光路设计中所要求的物理参数差距较大。由于整体270°偏转磁铁的场分布调整较困难,使工程实施中的束流调试难度较大,因此采用双135°偏转磁铁的光路方案。
為實現高能大功率電子輻照加速器的一機多用目的,需研製270°偏轉光路支線。本文採用T race3D程序對270°偏轉光路進行瞭設計與模擬計算,設計瞭雙135°偏轉磁鐵和整體270°偏轉磁鐵。對雙135°和整體270°兩種偏轉磁鐵元件進行二維和三維電磁場設計與模擬計算,計算結果錶明,整體270°偏轉磁鐵的場分佈與光路設計中所要求的物理參數差距較大。由于整體270°偏轉磁鐵的場分佈調整較睏難,使工程實施中的束流調試難度較大,因此採用雙135°偏轉磁鐵的光路方案。
위실현고능대공솔전자복조가속기적일궤다용목적,수연제270°편전광로지선。본문채용T race3D정서대270°편전광로진행료설계여모의계산,설계료쌍135°편전자철화정체270°편전자철。대쌍135°화정체270°량충편전자철원건진행이유화삼유전자장설계여모의계산,계산결과표명,정체270°편전자철적장분포여광로설계중소요구적물리삼수차거교대。유우정체270°편전자철적장분포조정교곤난,사공정실시중적속류조시난도교대,인차채용쌍135°편전자철적광로방안。
In order to realize the multi‐usage on one high power electron irradiation accelerator ,the 270° bend branch is needed to be researched .The beam dynamic design and calculation were done for 270° bend branch with the Trace3D code .Two schemes of bend magnet were designed .One is 270° bend and the other is double 135° bend .The design and calculation of the 270° and double 135° bend magnets were done by using two‐dimensional and three‐dimensional electro‐magnetic field calculation code . The calculation result shows that there is a big difference between the simulation and the beam dynamic demand of the field distribution of 270° bend magnet .Because it is very difficult to adjust the field of 270° bend magnet during the commissioning ,the double 135° bend magnet is preferred to be used .