Abstract

The construction of an experimental facility with test electron beams is under way at the Dzhelepov Laboratory of Nuclear Problems at the Joint Institute for Nuclear Research (Dubna, Russia). The facility is based on the MEA accelerator that was transferred from NIKHEF to JINR at the beginning of the 2000s. Despite the long service life of the accelerator, it is in good condition and still has a significant operation potential. The linac is being commissioned and the first 200-MeV beam has been generated. For now, the machine is controlled by a set of standalone subsystems that were created as required. Certain systems (e.g., vacuum) are controlled and monitored locally. However, a global control system is required to operate the accelerator as a user facility. The system requirements are formulated in this paper. The key issues of controlling the accelerator and its auxiliary (evacuation, cooling, etc.) systems are considered. The design of a new Tango-based control system of the Linac-200 is presented.

中文翻译：

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Linac-200新型控制系统的设计

摘要

联合核研究所（俄罗斯杜布纳）的Dzhelepov核问题实验室正在建设带有测试电子束的实验设施。该设施基于MEA加速器，该加速器在2000年代初从NIKHEF转移到JINR。尽管加速器的使用寿命很长，但它处于良好状态，仍具有巨大的运行潜力。直线加速器正在调试中，并且已经生成了第一个200 MeV光束。目前，该机器由一组按需创建的独立子系统控制。某些系统（例如真空）是在本地控制和监视的。然而，需要全局控制系统来将加速器作为用户设施进行操作。本文提出了系统要求。考虑了控制加速器及其辅助系统（排气，冷却等）的关键问题。介绍了基于Lina-200的基于探戈的新型控制系统的设计。