ion-source

Paper	Title	Other Keywords	Page
WECHA01	Status of the Nuclotron	ion, acceleration, vacuum, heavy-ion	127
	A. O. Sidorin, N. N. Agapov, V. Aleksandrov, V. Batin, A. V. Butenko, E. D. Donets, A. V. Eliseev, A. Govorov, V. Karpinsky, V. D. Kekelidze, H. G. Khodzhibagiyan, A. Kirichenko, A. D. Kovalenko, O. S. Kozlov, I. N. Meshkov, V. A. Mikhailov, V. Monchinsky, S. Romanov, V. Shevtsov, A. N. Sissakian, I. Slepnev, V. Slepnev, G. V. Trubnikov, B. Vasilishin, V. Volkov JINR, Dubna, Moscow Region O. I. Brovko JINR/VBLHEP, Moscow
	The 'Nuclotron-M' project started in 2007 is considered as the key point of the first stage of the NICA/MPD project. General goal of the 'Nuclotron-M' project is to prepare all the systems of the Nuclotron for its long and reliable operation as a part of the NICA collider injection chain. Additionally the project realization will increase the Nuclotron ability for realization of its current experimental program. Results of the last runs of the Nuclotron operation are presented.
	Slides
THCHB01	Study of INR RAS Linac Pulsed Duoplasmatron	ion, plasma, extraction, emittance	289
	A. Belov, O. T. Frolov, E. S. Nikulin, V. P. Yakushev RAS/INR, Moscow V. Zubets BNL, Upton, Long Island, New York
	Results of numerical simulation and experimental study of hydrogen ion beam from a pulsed duoplasmatron with different plasma expansion cap geometry are given. Intensive beam current oscillations with frequency of ~1MHz and up to 70% modulation level (for ion current ~ 100 mA) with plasma expansion cap of different shape were observed. It has been found by direct measurements that these oscillations are formed during plasma transport through the expansion cap. Noiseless mode of operation for the pulsed duoplasmatron has been obtained with the plasma expansion cap of new design. Results of the 400keV hydrogen ion beam current and emittance measurements are presented.
THCHZ01	First Radiocarbon Measurements at BINP AMS	ion, background, target, vacuum	309
	S. Rastigeev, A. R. Frolov, A. D. Goncharov, V. Klyuev, E. S. Konstantinov, S. G. Konstantinov, L. A. Kutnykova, V. V. Parkhomchuk, M. Petrichenkov, A. V. Petrozhitskii BINP SB RAS, Novosibirsk
	Present status of the BINP accelerator mass spectrometry (AMS) facility is described. The results of experiments for beam selection and radiocarbon concentration analysis in trial samples are presented.
	Slides
THPSC026	Status of HITS Injector	ion, target, vacuum, tandem-accelerator	376
	A. V. Semenov, V. G. Cherepkov, V. Klyuev, E. S. Konstantinov, E. A. Kuper, V. R. Mamkin, A. S. Medvedko, P. I. Nemytov, V. V. Repkov, V. B. Reva, R. A. Salimov, D. V. Senkov, V. A. Vostrikov BINP SB RAS, Novosibirsk
	Ion injector for cancer therapy facility HITS was designed and assembled at BINP. Injector is based on electrostatic tandem accelerator with 1.25 MV at the high voltage terminal. The negative ion beams are injected into tandem and charge exchanged in the vapor-magnesium target with vacuum heat insulation. The results of injector tests and working with carbon ion beam are presented.