| Paper |
Title |
Page |
| MOPLT099 |
NSC KIPT Accelerator on Nuclear and high Energy Physics
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761 |
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- I.S. Guk, A. Dovbnya, S.G. Kononenko, A.S. Tarasenko
NSC/KIPT, Kharkov
- J.I.M. Botman, M.J. Van der Wiel
TUE, Eindhoven
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One of the main reasons for the outflow of experts in nuclear physics and adjacent areas of science from Ukraine is the absence of modern accelerating facilities, for conducting research in the present fields of interest worldwide in this area of knowledge. A qualitatively new level of research can be achieved by the construction of a new generation accelerator applying the latest developments in the field of electron beam acceleration, in particular on the basis of superconducting accelerating structures of the TESLA type. Such structures may be used for continuous, polarized electron beams, which is crucial e.g. for thin(?) experiments checking modern theoretical models of interactions of nuclear substance, and for beams with high current and extremely short pulses for research in free electron laser and neutron physics. Such a facility will create an opportunity for carrying out research representing the interest of scientists from other countries, which will promote the integration of Ukrainian science into European and worldwide research.
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| MOPLT100 |
Magnetic Structure of the NSC KIPT Nuclear-and-high-energy-physics Electron Accelerator
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764 |
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- I.S. Guk, A. Dovbnya, S.G. Kononenko, F.A. Peev, A.S. Tarasenko
NSC/KIPT, Kharkov
- J.I.M. Botman, M.J. Van der Wiel
TUE, Eindhoven
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Design options of the magnetic structure of a new proposed accelerator facility at NSC KIPT with a continuous-wave electron beam are described. The accelerator represents a recirculator, based on standard TESLA superconducting accelerating sections in one or two straight sections with a length of 5 or 19 meters. The magnetic system is designed on the basis of the magnetic elements of storage ring EUTERPE, transferred by Eindhoven University to NSC KIPT. The focusing and dispersion functions for several design choices of the magnetic structure are reported. Modeling of the beam movement in the accelerator has been carried out; the beam parameters during acceleration and on accelerator output have been calculated.
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