| Paper | Title | Page |
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| WEXMH02 | Heavy Ion Cyclotrons of FLNR JINR - Status and Plans | 60 |
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| Status of JINR FLNR cyclotrons and plans of their modernization together with plans on creation of new facilities will be reported. At present, three cyclotrons: U400, U400M and IC100 and MT-25 microtron are under operation at the JINR FLNR. U400 and U400M are the basic FLNR facilities that both are under operation is about 12000 hours per year. The U400 (pole diameter of D=4 m) was designed to accelerate ions from B to Bi up to 19 MeV/u. U400 reconstruction is planned. The U400M cyclotron (D=4 m) is used to accelerate ions from Li to Xe up to 60 MeV/u. U400M modernization is planned. The IC100 accelerator (D=1m) is used for applied researches with Ar, Kr and Xe ions at energy of 1.2 MeV/u. Creation of the dedicated DC-130 cyclotron (D=2m) with ion energies of 4.5 and 2 MeV/u is planned on the base of U200 cyclotron. The Super Heavy Element Factory (SHE factory) is the new FLNR JINR project. The DC-280 cyclotron (D=4 m) is the basic facility of the SHE factory, which will accelerate ions with energies 4 - 8 MeV/u cyclotron at intensities up to 10 pmkA for ion masses over A=50. The main systems of the DC-280 were assembled and tested, the cyclotron is preparing for commissioning. | ||
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Slides WEXMH02 [40.835 MB] | |
| DOI • | reference for this paper ※ https://doi.org/10.18429/JACoW-RUPAC2018-WEXMH02 | |
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| TUPSA31 | Calibration of Measurement of Absolute Dee Voltage for U-400M Isochronous Cyclotron at FLNR JINR | 214 |
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| Measurement of absolute Dee voltage results of the isochronous cyclotron U-400M at FLNR JINR by the X-ray technique will be presented. Measurements were made at the following frequencies of the resonance system: 12.8, 13.317, 15.012, 15.1 and 17.5 MHz. The modeling of X-ray spectrum was carried out by the software package FLUKA to accurately determine the maximum energy of X-ray spectrum. An influence of the absolute Dee voltage was estimated by the program Center. | ||
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Poster TUPSA31 [2.020 MB] | |
| DOI • | reference for this paper ※ https://doi.org/10.18429/JACoW-RUPAC2018-TUPSA31 | |
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TUPSA40 |
DC130: Next Step of the FLNR Accelerator Complex for Applied Science Activity | |
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| The main activities of Flerov Laboratory of Nuclear Reactions, following its name - are related to fundamental science, but, in parallel, plenty of efforts are paid for practical applications. Certain amount of beam time every year is spent for applied science experiments on FLNR accelerator complex. For the moment, the main directions are: the production of the heterogeneousμ- and nano-structured materials; testing of electronic components (avionics and space electronics) for radiation hardness; ion-implantation nanotechnology and radiation materials science. Basing on FLNR long term experience in these fields and aiming to improve the instrumentation, the accelerator department start the Design Study for new cyclotron DC130 which will be dedicated machine for applied researches in FLNR. Following the user's requirements DC130 should accelerate the heavy ions with mass-to-charge ratio A/Z of the range from 5 to 8 up to fixed energies 2 and 4.5 MeV per unit mass. The first outlook of DC130 parameters, its features, layout of its casemate and general overview of the new FLNR facility for applied science will be presented. | ||
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Poster TUPSA40 [1.675 MB] | |
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| TUPSA60 | Beam Lines for Gas Filled Separator Experiments at DC280 Cyclotron | 272 |
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| The design of two beam lines for ion transportation from cyclotron DC280 to Gas Filled Separators (GSF) is presented. The beam lines include commutating magnet with variable magnetic field induction up to 1.5 T that gives the possibility to bend ion beams in five directions providing ion transportation through beam lines to five experimental setups. The beam focusing in the beam lines is provided by set of quadrupole lenses having the gradients up to 7.7 T/m. The beam lines are intended for the efficient ion transportation of elements from Helium to Uranium with the atomic mass to charge ratio in the range of 4-7.5 at energies from 4 up to 8 MeV/amu. The ion beam power will reach the value about 3 kW. The water cooled current aperture diaphragms will be installed into all beam lines to prevent the tube damage. The beam diagnostics consists of the Faraday caps (FC), slit collimators, sector aperture diaphragms and ionization beam profile monitors. A new structure of the beam line #3 and calculation results for 48Ca9+ and 48Ca7+ ion beam transportation from the extraction point to the new gas-filled separator GFS2 are listed. In addition, a new structure of the beam line #4 and calculation results for 48Ca8+, 50Ti8+, and 54Cr9+ ion beam transportation from the extraction point to the new GFS3 are presented. | ||
| DOI • | reference for this paper ※ https://doi.org/10.18429/JACoW-RUPAC2018-TUPSA60 | |
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| THPSC34 | Modern Beam Monitoring Systems During SEE Testing on ISDE&JINR Heavy Ion Facilities | 475 |
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| Creation results of new beam monitoring systems during SEE testing on ISDE&JINR heavy ion facilities will be presented. Diagnostic systems of ion beam parameters were modernized at beam-lines for electronic tests at FLNR accelerator complex. Scintillation detectors based on flexible optical fibers, multichannel and 15-channel beam profile detectors and energy measurement system for the high energy beam-line based on U400M were created. | ||
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Poster THPSC34 [2.142 MB] | |
| DOI • | reference for this paper ※ https://doi.org/10.18429/JACoW-RUPAC2018-THPSC34 | |
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