Cyclotrons2013 - List of Authors (Kalagin, I.V.)

Paper	Title	Page
WEPPT007	Getting Uniform Ion Density on Target in High-Energy Beam Line of Cyclotron U-400M with Two	335
	I.A. Ivanenko, I.V. Kalagin, V.I. Kazacha, N.Yu. Kazarinov JINR, Dubna, Moscow Region, Russia
	Formation by means of octupole magnets of a uniform ions distribution in the existing beam line of U400M cyclotron has been studied. The simulation was performed for Ar¹⁷⁺ ions with energy of 41.3 MeV/amu. The required level of beam non-uniformity on the target with diameter of 60 mm is ±7.5%. Two octupoles with static magnetic fields have been used to achieve the desired uniformity of the beam density in both coordinates simultaneously. The results of calculations are presented. This method of improving the uniformity of the beam will be implemented soon in Flerov laboratory of JINR.

WEPPT008	Correction of Vertical Shifting of Extracted Beam at the Test Operation of DC-110 Cyclotron	338
	I.A. Ivanenko, B. Gikal, I.V. Kalagin, N.Yu. Kazarinov, V.I. Mironov, E. Samsonov JINR, Dubna, Moscow Region, Russia
	The specialized heavy ion cyclotron DC-110 has been designed and created by the Flerov Laboratory of Nuclear Reactions of Joint Institute for Nuclear Research for scientifically industrial complex “BETA” placed in Dubna (Russia). DC-110 cyclotron is intended for accelerating the intense Ar, Kr, Xe ion beams with fixed energy of 2.5 MeV/nucleon. The commissioning of DC-110 cyclotron has been carried out at the end of 2012. The project parameters of the ion beams have been achieved. During commissioning of cyclotron the vertical displacement of the beam at the last orbits and at the extraction channel was revealed. The calculations and experiments have shown that the reason of this displacement is the radial component of magnetic field at the median plane of the cyclotron, which appears because of asymmetry of the magnetic yoke. Correction of the vertical displacement of the beam has been achieved by creating an asymmetry of current distribution in the main coils of the electromagnet.

Paper

Title

Page

Getting Uniform Ion Density on Target in High-Energy Beam Line of Cyclotron U-400M with Two

335

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

Formation by means of octupole magnets of a uniform ions distribution in the existing beam line of U400M cyclotron has been studied. The simulation was performed for Ar¹⁷⁺ ions with energy of 41.3 MeV/amu. The required level of beam non-uniformity on the target with diameter of 60 mm is ±7.5%. Two octupoles with static magnetic fields have been used to achieve the desired uniformity of the beam density in both coordinates simultaneously. The results of calculations are presented. This method of improving the uniformity of the beam will be implemented soon in Flerov laboratory of JINR.

WEPPT008

Correction of Vertical Shifting of Extracted Beam at the Test Operation of DC-110 Cyclotron

338

I.A. Ivanenko, B. Gikal, I.V. Kalagin, N.Yu. Kazarinov, V.I. Mironov, E. Samsonov
JINR, Dubna, Moscow Region, Russia

The specialized heavy ion cyclotron DC-110 has been designed and created by the Flerov Laboratory of Nuclear Reactions of Joint Institute for Nuclear Research for scientifically industrial complex “BETA” placed in Dubna (Russia). DC-110 cyclotron is intended for accelerating the intense Ar, Kr, Xe ion beams with fixed energy of 2.5 MeV/nucleon. The commissioning of DC-110 cyclotron has been carried out at the end of 2012. The project parameters of the ion beams have been achieved. During commissioning of cyclotron the vertical displacement of the beam at the last orbits and at the extraction channel was revealed. The calculations and experiments have shown that the reason of this displacement is the radial component of magnetic field at the median plane of the cyclotron, which appears because of asymmetry of the magnetic yoke. Correction of the vertical displacement of the beam has been achieved by creating an asymmetry of current distribution in the main coils of the electromagnet.