RuPAC2014 - List of Authors (Mikhailov, V.N.)

Paper	Title	Page
THPSC45	Use of Fast Magnetic Beam Raster System for INR Isotope Production Facility	426
	O. Volodkevich, S. Bragin, A. Feschenko, O.V. Grekhov, Yu.V. Kiselev, V.M. Kokhanyuk, V.N. Mikhailov, A.N. Mirzojan, V.L. Serov RAS/INR, Moscow, Russia
	Fast magnetic beam raster system for INR isotope production facility is developed and implemented. The system enables to increase the isotope production efficiency by providing a possibility of using a higher intensity proton beam on the target of the isotope production facility. First experimental results of system application for irradiation of the targets are presented.

THPSC46	Simulation and Optimization of Ion Optical Extraction, Acceleration and H-minus Ion Beam Matching Systems	429
	B.A. Frolov IHEP, Moscow Region, Russia V.S. Klenov, V.N. Mikhailov, O. Volodkevich RAS/INR, Moscow, Russia
	Source of negative hydrogen ions for the implementation of multiturn charge-exchange injection to increase the intensity of IHEP buster is developed. Surface-plasma ion source with Penning discharge is selected as a source of H-minus ions. A high-current extraction system with downstream electron dumping has been designed. A three-dimensional ion optical code IBSimu has been utilized for modelling and optimization the extraction system and ion beam acceleration to energy of 100 keV. A magnetic low energy beam transport line consisting of two solenoids has been designed to match the beam with RFQ. TRACE 2D code was used to optimize LEBT. A deflecting magnet with small angular deflection (10) has been installed between solenoids to eliminate forward tracing of neutral atoms from ions source to RFQ.

Paper

Title

Page

Use of Fast Magnetic Beam Raster System for INR Isotope Production Facility

426

O. Volodkevich, S. Bragin, A. Feschenko, O.V. Grekhov, Yu.V. Kiselev, V.M. Kokhanyuk, V.N. Mikhailov, A.N. Mirzojan, V.L. Serov
RAS/INR, Moscow, Russia

Fast magnetic beam raster system for INR isotope production facility is developed and implemented. The system enables to increase the isotope production efficiency by providing a possibility of using a higher intensity proton beam on the target of the isotope production facility. First experimental results of system application for irradiation of the targets are presented.

THPSC46

Simulation and Optimization of Ion Optical Extraction, Acceleration and H-minus Ion Beam Matching Systems

429

B.A. Frolov
IHEP, Moscow Region, Russia
V.S. Klenov, V.N. Mikhailov, O. Volodkevich
RAS/INR, Moscow, Russia

Source of negative hydrogen ions for the implementation of multiturn charge-exchange injection to increase the intensity of IHEP buster is developed. Surface-plasma ion source with Penning discharge is selected as a source of H-minus ions. A high-current extraction system with downstream electron dumping has been designed. A three-dimensional ion optical code IBSimu has been utilized for modelling and optimization the extraction system and ion beam acceleration to energy of 100 keV. A magnetic low energy beam transport line consisting of two solenoids has been designed to match the beam with RFQ. TRACE 2D code was used to optimize LEBT. A deflecting magnet with small angular deflection (10) has been installed between solenoids to eliminate forward tracing of neutral atoms from ions source to RFQ.