ECRIS-2014 - List of Authors (Maunoury, L.)

Paper

Title

Page

Production Of Metallic Stable Ion Beams For GANIL And SPIRAL2

45

F. Lemagnen, C. Barue, C. Canet, J.L. Flambard, R. Frigot, P. Jardin, L. Maunoury, O. Osmond, J. Piot
GANIL, Caen, France
B.J.P. Gall
IPHC, Strasbourg Cedex 2, France
T. Lamy, P. Sole, T. Thuillier
LPSC, Grenoble Cedex, France
C. Peaucelle
IN2P3 IPNL, Villeurbanne, France

GANIL has been producing many stable beams for nearly 30 years. Constant progress have been obtained in terms of intensity, stability and reliability. The presentation highlights recent results obtained for 50Ti beam production from an organo-metallic compound using the MIVOC (Metallic Ions from Volatile Compounds) method with the ECR4 ion source. The synthesis of this compound has been studied and realized by the IPHC-Strasbourg team from isotopically enriched titanium metal. Preliminary tests using natural titanocene were performed to validate the production method in terms of beam intensity, stability and reliability. Results obtained allowed us to program a physics experiment in September 2013. A 50Ti¹⁰⁺ beam was maintained stable for 300 h with a mean intensity of 20 μA. Q/A=1/3 ion source of SPIRAL 2 facility, whom commissioning will be led by end of 2014, is Phoenix V2 ion source which has been developed by LPSC-Grenoble. Results obtained for nickel (58Ni¹⁹⁺) and calcium (40Ca¹⁶⁺) in collaboration with LPSC Grenoble will be presented in this report.
CNRS - Centre national de la recherche scientifique. 3, rue Michel-Ange
75794 Paris cedex 16 - France
CEA, Commissariat à L'Energie Atomique Bâtiment Le ponant D - 25 rue Leblanc
75015 PARIS

WEOBMH01

Experimental Activities with the LPSC Charge Breeder in the European Context

120

T. Lamy, J. Angot, T. Thuillier
LPSC, Grenoble Cedex, France
J. Choinski, L. Standylo
HIL, Warsaw, Poland
P. Delahaye, L. Maunoury
GANIL, Caen, France
A. Galatà
INFN/LNL, Legnaro (PD), Italy
H. A. Koivisto, O.A. Tarvainen
JYFL, Jyväskylä, Finland
G. Patti
INFN/LNS, Catania, Italy

Funding: NuPNET project (Enhanced Multi-Ionization of short-Lived Isotopes at EURISOL)
One of the Work Packages of the "Enhanced Multi-Ionization of short-Lived Isotopes at EURISOL" NuPNET project focuses on the ECR charge breeding. The LPSC charge breeder is used for experimental studies in order to better understand the fundamental processes involved in the 1+ beam capture by a 14 GHz ECR plasma. Some improvements, like symmetrisation of the magnetic field at the injection side and higher pumping speed, have been carried out on the PHOENIX charge breeder. The impact of these modifications on the efficiencies and charge breeding times are presented. In the same time, the new LPSC 1+ source developments performed in order to ease the efficiency measurements with various elements are presented.

Slides WEOBMH01 [4.982 MB]

Paper	Title	Page
MOPPH002	Production Of Metallic Stable Ion Beams For GANIL And SPIRAL2	45
	F. Lemagnen, C. Barue, C. Canet, J.L. Flambard, R. Frigot, P. Jardin, L. Maunoury, O. Osmond, J. Piot GANIL, Caen, France B.J.P. Gall IPHC, Strasbourg Cedex 2, France T. Lamy, P. Sole, T. Thuillier LPSC, Grenoble Cedex, France C. Peaucelle IN2P3 IPNL, Villeurbanne, France
	GANIL has been producing many stable beams for nearly 30 years. Constant progress have been obtained in terms of intensity, stability and reliability. The presentation highlights recent results obtained for 50Ti beam production from an organo-metallic compound using the MIVOC (Metallic Ions from Volatile Compounds) method with the ECR4 ion source. The synthesis of this compound has been studied and realized by the IPHC-Strasbourg team from isotopically enriched titanium metal. Preliminary tests using natural titanocene were performed to validate the production method in terms of beam intensity, stability and reliability. Results obtained allowed us to program a physics experiment in September 2013. A 50Ti¹⁰⁺ beam was maintained stable for 300 h with a mean intensity of 20 μA. Q/A=1/3 ion source of SPIRAL 2 facility, whom commissioning will be led by end of 2014, is Phoenix V2 ion source which has been developed by LPSC-Grenoble. Results obtained for nickel (58Ni¹⁹⁺) and calcium (40Ca¹⁶⁺) in collaboration with LPSC Grenoble will be presented in this report. CNRS - Centre national de la recherche scientifique. 3, rue Michel-Ange 75794 Paris cedex 16 - France CEA, Commissariat à L'Energie Atomique Bâtiment Le ponant D - 25 rue Leblanc 75015 PARIS

WEOBMH01	Experimental Activities with the LPSC Charge Breeder in the European Context	120
	T. Lamy, J. Angot, T. Thuillier LPSC, Grenoble Cedex, France J. Choinski, L. Standylo HIL, Warsaw, Poland P. Delahaye, L. Maunoury GANIL, Caen, France A. Galatà INFN/LNL, Legnaro (PD), Italy H. A. Koivisto, O.A. Tarvainen JYFL, Jyväskylä, Finland G. Patti INFN/LNS, Catania, Italy
	Funding: NuPNET project (Enhanced Multi-Ionization of short-Lived Isotopes at EURISOL) One of the Work Packages of the "Enhanced Multi-Ionization of short-Lived Isotopes at EURISOL" NuPNET project focuses on the ECR charge breeding. The LPSC charge breeder is used for experimental studies in order to better understand the fundamental processes involved in the 1+ beam capture by a 14 GHz ECR plasma. Some improvements, like symmetrisation of the magnetic field at the injection side and higher pumping speed, have been carried out on the PHOENIX charge breeder. The impact of these modifications on the efficiencies and charge breeding times are presented. In the same time, the new LPSC 1+ source developments performed in order to ease the efficiency measurements with various elements are presented.
	Slides WEOBMH01 [4.982 MB]