重离子加速器

  • 网络Heavy ion accelerator;hirfl;HIMAC;GANIL
重离子加速器重离子加速器
  1. 将PROFIBUS现场总线技术成功应用于重离子加速器高频发射机控制系统中,达到了在强电磁干扰环境下系统稳定运行的要求。

    PROFIBUS technique is applied to the control system of SFC high-frequency transmitter successfully .

  2. 采用激光跟踪仪及配套带软件Insight对兰州重离子加速器冷却储存环主环磁铁进行了安装和准直。

    We have installed and aligned all magnets of CSRm ( the main ring of cooler storage ring ) by laser tracker and its fitting software Insight .

  3. Moyer模式在高能重离子加速器辐射防护屏蔽设计中的应用

    Application of the Moyer Model to Shielding Design of High-Energy Heavy-Ion Accelerators

  4. 文章涉及兰州重离子加速器冷却储存环(HIRFLCSR)的磁场测量系统。

    Magnetic measurement system is an indispensable part of National Scientific Major-project Cooling Storage Ring of Heavy Ion Research Facility in Lanzhou ( HIRFL-CSR ) .

  5. 兰州重离子加速器冷却储存环工程(HIRFLCSR)主环和实验环上带电粒子束流强度的测量和监视拟由环型束流变压器实现。

    The intensity of a pulsed beam of charged particles in the Cooling Storage Ring Project of Heavy Ion Research Facility in Lanzhou ( HIRFL-CSR ) will be measured with a toroidal current transformer .

  6. 描述了兰州重离子加速器国家实验室最近建成的兰州放射性核束流线(RIBLL)的磁铁和电源系统的物理设计和性能特点。

    The design and specifications of the dipoles , quadrupoles lens and its power supplies for radioactive ion beam line in Lanzhou ( RIBLL ) are described .

  7. 中国科学院近代物理研究所的国家“九五”重大科学工程项目,兰州重离子加速器冷却储存环(简称HIRFL-CSR)的准直安装,要安装的元件数量多、范围广、并且精度要求高。

    Coler Storage Ring of Heavy Ion Research Facility in Lanzhou ( HIRFL-CSR ) belongs to China great scientific project in China . The alignment for it is very difficult because of very large area and very high accuracy .

  8. 兰州重离子加速器(HIRFL)是一台组合加速器装置,它自1988年建成至今,为众多的离子核物理和应用实验提供了多种束流。

    Heavy Ion Research Facility in Lanzhou ( HIRFL ) is an equipment , which is combined by some sub-accelerator . Since 1988 , when it was built , it has supplied a lot of beam for both ion nuclear physics and applications experiments .

  9. 兰州重离子加速器监测系统软件设计

    Software Design of Heavy Ion Research Facility at Lanzhou Monitor System

  10. 兰州重离子加速器真空系统的设计问题

    Design Problems of the Vacuum System for Lanzhou Heavy Ion Cyclotron

  11. 兰州重离子加速器放射性次级束流线的改进与发展

    Improvements and Developments on Radioactive Ion Beam Line in Lanzhou

  12. 高能重离子加速器次级中子屏蔽的理论估算

    Theoretical Estimation of Shielding for Secondary Neutrons From High Energy Heavy Ion Accelerator

  13. 兰州重离子加速器的真空系统

    Vacuum system of the Lanzhou heavy ion cyclotron

  14. 千兆电子伏重离子加速器&兰州冷却储存环

    Heavy Ion Synchrotron and Cooler-Storage-Ring in Lanzhou

  15. 兰州重离子加速器的状态和发展

    The Lanzhou Heavy Ion Research Facility

  16. 兰州重离子加速器深层治癌扫描电源研究与设计

    Research and Design of Scanning Power Supply for Deep Tumor Therapy Facility With Heavy Ions Accelerator in Lanzhou

  17. 最后,给出了重离子加速器励磁电源在谐波治理方面的实验运行结果。

    The results of experimental operation of APF in the harness of harmonic pollution from the exciting power source for heavy-hydronium accelerator are given .

  18. 介绍了原子高离化态研究装置,包括重离子加速器、测量装置、数据获取和处理系统。

    A equipment of research of atomic high-ionized state is introduced , including heavy ion accelerator , instrument of measurement , data acquisition and data processing system .

  19. 对兰州重离子加速器的电源控制系统进行了研究,设计了以直接数字频率合成器和数字信号处理器为核心的波形发生器;

    The power control system of Heavy Ion Research Facility at Lanzhou is studied , the wave generator is designed based on director digital synthesizer and digital signal processor .

  20. 形成并成功地实施一套完整的超高真空获得方案,以满足兰州重离子加速器冷却储存环(HIRFL-CSL)6×10-9Pa超高真空度的要求。

    UHV obtaining technology has been successfully developed to achieve an ultra high base pressure of 6 × 10-9 Pa for Lanzhou heavy ion cooler-storage ring project ( HIRFL-CSR ) .

  21. 鉴于目前我国第一台大型重离子加速器己经建成出束,开展这些研究已成为可能。

    In view of the fact that Lanzhou Heavy Ion Research Facility , the first heavy ion accelerator in China , has been constructed to produce the beams , it is possible to do the research work in these fields .

  22. 我们采用的方法是用地面重离子加速器模拟实验和计算机模拟空间辐射环境进行单粒子翻转率预估计算。

    The rate of Single Event Upset ( SEU ) for space-based missions has been predicted by means of ground-based particle accelerator test and simulation calculation based on models of space radiation environment and the interaction of ions with the microelectronic device .

  23. 我们设计的高速传带设备是兰州重离子加速器的重点设备,它用于存储、观察、检测重离子。

    The high speed tap transport device we designed is the key equipment of the Lanzhou heavy ion accelerator , which is memory , observation , detection of heavy ions and different from the traditional stretching force control machine and general CNC system .

  24. 用于重离子超导加速器的低β加速腔的最佳选择是四分之一波长谐振腔(QWR)。

    The best choice of the acceleration cavity for heavy ion superconducting accelerator is quarter wave resonator ( QWR ) .

  25. 利用日本千叶重离子医用加速器HIMAC提供的碳离子束,对人类唾液腺细胞(HSG)在剂量率为0。

    Human salivary gland cells ( HSG ) were irradiated with carbon ion beams supplied by the Heavy IonMedical Accelerator in Chiba ( HIMAC ), Japan at a low dose rate of0 .

  26. 兰州重离子直线加速器设计初步

    Development of the Lanzhou Heavy Ion Linac

  27. 随着核物理的分支学科-重离子物理的蓬勃发展,国内外对于重离子加速器的建设进行了大量的投入。

    With the development of Heavy Ion Physics , the branch subject of nuclear physics , the governments over the world put a large number of funds and resources into the construction of heavy ion accelerators .