Cyclotrons2016 - List of Authors (Kazarinov, N.Yu.)

Paper	Title	Page
TUP26	Axial Injection Channel of IPHC Cyclotron TR24 and Possibility of Ion Beam Bunching	224
	N.Yu. Kazarinov, I.A. Ivanenko JINR, Dubna, Moscow Region, Russia F.R. Osswald IPHC, Strasbourg Cedex 2, France
	The CYRCé cyclotron (CYclotron pour la ReCherche et l'Enseignement) is used at IPHC (Institut Pluridisciplinaire Hubert Curien) for the production of radio-isotopes for diagnostics and medical treatments. The TR24 cyclotron produced and commercialized by ACSI (Canada) delivers a 16-25 MeV proton beam with intensity from few nA up to 500 microA. The bunching of the H⁻ ion beam by means of multi harmonic buncher is considered in this report. The buncher may be installed in the axial injection beam line of the cyclotron. The using of the greed-less multi harmonic buncher will give opportunity to new proton beam applications and to increase the accelerated beam current. The main parameters of the sinusoidal (one-harmonic) and multi harmonic bunchers are evaluated.
	Poster TUP26 [0.210 MB]
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WEA02	Simulation of the Beam Dynamics in the Axial Injection Beam Line of FLNR JINR DC280 Cyclotron	251
	N.Yu. Kazarinov, I.A. Ivanenko JINR, Dubna, Moscow Region, Russia
	DC280 is novel cyclotron which is created at the FLNR JINR. It allows to accelerate the ions of elements from Helium to Uranium with the mass to charge ratio in the range of 4 to 7.5 providing ion currents up to 10 pμA. The simulation of ion beam dynamics in the high voltage axial injection beam line of DC280 cyclotron is presented. One part of the injection system is placed at the HV platform and other part is in the grounded yoke of the DC-280 magnet. The 3D electromagnetic field maps of the focusing solenoids, analyzing magnet, accelerating tube and spherical electrostatic deflector are used during this simulation. The calculated efficiency of ion beam transportation is equal to 100%
	Slides WEA02 [0.823 MB]
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THA03	Development of FLNR JINR Heavy Ions Accelerator Complex (DRIBs III)	278
	B. Gikal, S.L. Bogomolov, S.N. Dmitriev, G.G. Gulbekyan, I.A. Ivanenko, I.V. Kalagin, N.Yu. Kazarinov, Y.T. Oganessian, N.F. Osipov, S.V. Pashchenko JINR, Dubna, Moscow Region, Russia
	The cyclotrons of U-400, U-400M, and IC-100 are in operation in the Flerov Laboratory of Nuclear Reactions for implementation of scientific program and applied research. Total operation time of these accelerators is about 15000 hours per year. One of the basic scientific programs in FLNR is the synthesis of new elements that demands intensive beams of heavy ions. Now U-400 is capable to provide long-term experiments on 48Ca beam with intensity of 1 pμA. The high-intensity DC-280 cyclotron has been developed in FLNR in order to increase the 48Ca beam intensity up to 10 pμA for this task. The cyclotron U-400 has been in operation since 1978. The U-400 modernization into U-400R is planned to start after finishing DC-280 project. At the U-400M cyclotron, we plan to increase the ion energy of the extracted beam, which now is limited by 55 MeV/nucleon. The IC-100 is used in the laboratory as a specialized machine for applied research on the heavy ion beams with energies of 1 - 1.2 MeV/nucleon.
	Slides THA03 [25.206 MB]
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THP25	Status of the DC-280 Cyclotron Project	363
	I.V. Kalagin, S.L. Bogomolov, S.N. Dmitriev, B. Gikal, G.G. Gulbekyan, I.A. Ivanenko, G.N. Ivanov, N.Yu. Kazarinov, Y.T. Oganessian, N.F. Osipov JINR, Dubna, Moscow Region, Russia
	The current status of the DC-280 cyclotron project is presented. The DC-280 will be the basic facility of the Super Heavy Element Factory which is being created at the FLNR JINR. The main parts of the DC-280 are already made. In according to FLNR plans the cyclotron has to be assembled and will be ready to the first run by the end of 2017.
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Paper

Title

Page

Axial Injection Channel of IPHC Cyclotron TR24 and Possibility of Ion Beam Bunching

224

N.Yu. Kazarinov, I.A. Ivanenko
JINR, Dubna, Moscow Region, Russia
F.R. Osswald
IPHC, Strasbourg Cedex 2, France

The CYRCé cyclotron (CYclotron pour la ReCherche et l'Enseignement) is used at IPHC (Institut Pluridisciplinaire Hubert Curien) for the production of radio-isotopes for diagnostics and medical treatments. The TR24 cyclotron produced and commercialized by ACSI (Canada) delivers a 16-25 MeV proton beam with intensity from few nA up to 500 microA. The bunching of the H⁻ ion beam by means of multi harmonic buncher is considered in this report. The buncher may be installed in the axial injection beam line of the cyclotron. The using of the greed-less multi harmonic buncher will give opportunity to new proton beam applications and to increase the accelerated beam current. The main parameters of the sinusoidal (one-harmonic) and multi harmonic bunchers are evaluated.

Poster TUP26 [0.210 MB]

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WEA02

Simulation of the Beam Dynamics in the Axial Injection Beam Line of FLNR JINR DC280 Cyclotron

251

N.Yu. Kazarinov, I.A. Ivanenko
JINR, Dubna, Moscow Region, Russia

DC280 is novel cyclotron which is created at the FLNR JINR. It allows to accelerate the ions of elements from Helium to Uranium with the mass to charge ratio in the range of 4 to 7.5 providing ion currents up to 10 pμA. The simulation of ion beam dynamics in the high voltage axial injection beam line of DC280 cyclotron is presented. One part of the injection system is placed at the HV platform and other part is in the grounded yoke of the DC-280 magnet. The 3D electromagnetic field maps of the focusing solenoids, analyzing magnet, accelerating tube and spherical electrostatic deflector are used during this simulation. The calculated efficiency of ion beam transportation is equal to 100%

Slides WEA02 [0.823 MB]

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THA03

Development of FLNR JINR Heavy Ions Accelerator Complex (DRIBs III)

278

B. Gikal, S.L. Bogomolov, S.N. Dmitriev, G.G. Gulbekyan, I.A. Ivanenko, I.V. Kalagin, N.Yu. Kazarinov, Y.T. Oganessian, N.F. Osipov, S.V. Pashchenko
JINR, Dubna, Moscow Region, Russia

The cyclotrons of U-400, U-400M, and IC-100 are in operation in the Flerov Laboratory of Nuclear Reactions for implementation of scientific program and applied research. Total operation time of these accelerators is about 15000 hours per year. One of the basic scientific programs in FLNR is the synthesis of new elements that demands intensive beams of heavy ions. Now U-400 is capable to provide long-term experiments on 48Ca beam with intensity of 1 pμA. The high-intensity DC-280 cyclotron has been developed in FLNR in order to increase the 48Ca beam intensity up to 10 pμA for this task. The cyclotron U-400 has been in operation since 1978. The U-400 modernization into U-400R is planned to start after finishing DC-280 project. At the U-400M cyclotron, we plan to increase the ion energy of the extracted beam, which now is limited by 55 MeV/nucleon. The IC-100 is used in the laboratory as a specialized machine for applied research on the heavy ion beams with energies of 1 - 1.2 MeV/nucleon.

Slides THA03 [25.206 MB]

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THP25

Status of the DC-280 Cyclotron Project

363

I.V. Kalagin, S.L. Bogomolov, S.N. Dmitriev, B. Gikal, G.G. Gulbekyan, I.A. Ivanenko, G.N. Ivanov, N.Yu. Kazarinov, Y.T. Oganessian, N.F. Osipov
JINR, Dubna, Moscow Region, Russia

The current status of the DC-280 cyclotron project is presented. The DC-280 will be the basic facility of the Super Heavy Element Factory which is being created at the FLNR JINR. The main parts of the DC-280 are already made. In according to FLNR plans the cyclotron has to be assembled and will be ready to the first run by the end of 2017.

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reference for this paper using ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)