Abstract
An accelerator complex DELSI (Dubnen Electron Synchrotron) is planned for constuction as source of synchrotron radiation with high brightness in a wide spectral range – from far infrared (100 μm) up to high-energy x-ray (50 keV). This will make it possible to perform a wide range of research at the Joint Institute of Nuclear Research. The DELSI complex includes a linear electron accelerator up to energy 800 MeV and a storage ring with a 136 m perimeter at 1.2 GeV, in which a 10 T wiggler and an undulator (0.75 T, 150 periods) are built-in. The linear electron accelerator of the DELSI complex will be used for injection and for producing free-electron lasers. The parameters of synchrotron radiation from the bending magnets and built-in devices of the DELSI complex, the magnetic structure of the storage ring with the wiggler and undulator switched off, the effect of built-in devices on the ring optics, and the effect of errors on the closed orbit are examined; the synchrotron radiation parameters are briefly described.
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