Speaker
Description
X-ray radiation sources are of great importance for different research, medical and technological purposes. High power radiation source of a small transverse size, so-called high brilliance radiation source, is required by the majority of radiation users. A small (less than 0.1 mm) transverse size electron beam circulating in a storage ring can be used for creation of such radiation sources.
It is crucial to improve future radiation sources compared with the existing at the present moment. The upgrade can be done with the use of new technologies. One of them is the implementation of permanent magnets for the electron optics design. It will help to exclude the dependence of the electron beam stability on the electric power supply instability and the vibration caused by the work of the cooling system. On top of that, the use of permanent magnets will increase the aperture of the vacuum chamber and, thus, simplify the storage ring vacuum and injection systems, and increase the instabilities threshold current.
This work is devoted to the development of the two focusing and defocusing magnets as an entity of the regular magnet system of the future energy-saving compact source of synchrotron radiation. The design and the results of magnetic field simulations are presented.
| Young scientist paper | Yes |
|---|
