Thm sinkrotron ışınımı tesisinin ön hızlandırıcısının optimizasyonu ve öngörülen dipol ve kuadrupol magnetlerin tasarımı
Özet
In this study, the physics of synchrotron radiation (SR) and ray source generations are examined, then physical concepts related to synchrotron radiation are introduced and information about the main parameters of radiation is given. Information on beam optics of charged particles was shared and information was given on the physics of magnets used in a synchrotron ring in accelerator structures. Scientific and technological uses of synchrotron radiation are defined. By mentioning the studies on small and large booster ring approaches used in the accelerator facilities, the structure of the TURKAY facility, detailed booster structures, small pre-accelerator ring optimization and envisaged integrated sextupol/quadrupole magnet (four and six pole effects in one structure) and dipole magnet designs are included in all details. In this frame, OPA and MADX codes were used for the pre-accelerator synchrotron ring design, POISSON SUPERFISH, CREO, COMSOL and RADIA simulation softwares were used for the design of the magnets, and the results were presented by graphics. In addition, all operational tests were carried out to determine the field strength and field quality in the APS-U Magnet Measurement Laboratory, which was established in April 2019 within the scope of the APS-U project at the Argonne National Laboratory (ANL, US). The results have been presented. With this study, important results that will directly contribute to the installation phase of the facility in terms of determining the magnet structures for the proposed THM-TURKAY facility, creating and using the magnetic lattice more effectively, detailed design and definition of the various types of magnets foreseen have been revealed.