The Proton Linac for Compact Neutron Source Daria

“…For the successful development of synchrotron and neutron research in the Russian Federation, in addition to the flagship mega-science facilities, such as the SKIF and SILA synchrotron radiation sources or the PIK research reactor, it is necessary to create an infrastructure supporting these facilities based on relatively small, compact sources that allow scientists training to carry out the research on the above mentioned installations, as well as to carry out preliminary work for the development of new equipment, techniques, and methods. Project of the proton accelerator-driven compact neutron source DARIA (Dedicated for Academic Research and Industrial Application) [1] is aimed at solving this problem, namely: creating serial compact sources of photons and neutrons based on the latest technologies of linear ion accelerators. DARIA will be based on a proton injector, 13 MeV linear accelerator consisting of a RFQ and a few DTLs, beryllium target, neutron moderator, and a set of neutron research stations.…”

Design of the proton injector for compact neutron source DARIA

“…For the successful development of synchrotron and neutron research in the Russian Federation, in addition to the flagship mega-science facilities, such as the SKIF and SILA synchrotron radiation sources or the PIK research reactor, it is necessary to create an infrastructure supporting these facilities based on relatively small, compact sources that allow scientists training to carry out the research on the above mentioned installations, as well as to carry out preliminary work for the development of new equipment, techniques, and methods. Project of the proton accelerator-driven compact neutron source DARIA (Dedicated for Academic Research and Industrial Application) [1] is aimed at solving this problem, namely: creating serial compact sources of photons and neutrons based on the latest technologies of linear ion accelerators. DARIA will be based on a proton injector, 13 MeV linear accelerator consisting of a RFQ and a few DTLs, beryllium target, neutron moderator, and a set of neutron research stations.…”

Design of the proton injector for compact neutron source DARIA

“…Neutron sources are widely used in fundamental and applied studies [1]. There are different types of neutron sources (nuclear reactors [2], radioisotope sources [3], accelerator-based sources [4][5][6][7][8][9][10][11][12], etc.). They are in demand for various applications (neutronography, boron neutron capture therapy (BNCT), neutron tomography etc.…”

Ion beam source upgrade of the neutron source at IAP RAS

“…In Russia, the development of such a source is being carried out within the framework of the DARIA project: the Dedicated to Academic Research and Industrial Application compact neutron source. This work is being carried out by a team of specialists from the Kurchatov Institute (ITEP and PNPI) in cooperation with St. Petersburg State University, the Joint Institutes for Nuclear Research, Immanuel Kant Baltic Federal University, and Institute of Applied Physics of the Russian Academy of Sciences [12,13].…”

“…The pulse machine is noticeably more resistant to high-frequency breakdowns; however, it is required to accelerate the beam at an intensity two orders of magnitude higher. The results of the development of the accelerator for operation in the continuous mode for the DARIA project are presented in [12]. For the impulse variant, it is planned to develop a design of the accelerator for the parameters of the beam of the Gasdynamic Ion Source for Multipurpose Operation (GISMO) pulsed ion source developed at the Institute of Applied Physics (Nizhny Novgorod) [14][15][16][17][18].…”

Еmittance Measurements of a Gasdynamic Electron Cyclotron Resonant Ion Source