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Status of Target and Ion Source Group Developments 2013 Christoph Seiffert on behalf of TISD 1.

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Presentation on theme: "Status of Target and Ion Source Group Developments 2013 Christoph Seiffert on behalf of TISD 1."— Presentation transcript:

1 Status of Target and Ion Source Group Developments 2013 Christoph Seiffert on behalf of TISD 1

2 Overview Neutron converter: purification of neutron rich isotopes SiC, Al2O3: low Z elements Titanium Carbide: 37 K, 35 Ca Diffusion of Boron: 8 B Nano sized UC x : increase of intensity of fission fragments, n-rich light nuclei, heavy elements Molten Salt/Metal: 187 Hg, 11 C Molecular beams: short lived Carbon ( 9 C, 17 C,..), 8 B 2

3 RIB production 3 Ionization Isotope production Transport Diffusion

4 4 Ionization Isotope production Transport Diffusion Developments target three major factors  Increase of yield  Purification from isobars  Stability of release Developments target three major factors  Increase of yield  Purification from isobars  Stability of release RIB production

5 5 Isotope production Proton to Neutron converter Proton to neutron Converter A.Gottberg, S.Cimmino, R.Luis

6 Proton to Neutron converter Purification of exotic neutron rich beams 6 Z=50, N = 82 Z=28, N = 50

7 7 Proton-to-Neutron Converter current design proton fluence (p/cm 2 /µC)neutron fluence (n/cm 2 /µC) Operated in October 2012 R. Luis et al., European Physics Journal A, 48 (2012) 90

8 8 Proton-to-Neutron Converter Development of next consequent step of enhancement in collaboration with TRIUMF A. Gottberg et al., to be submitted to NIM B S. Cimmino et al., Intern. Workshop on Radioactive Ion Beam production and High-Power Target Station, Poster Presentation: Serena Cimmino, Fri 9h30, Globe Measured improved yield/impurities of x200 on 80 Zn/ 80 Rb compared to conventional converter

9 RIB production 9 Diffusion Advanced SiC, Al 2 O 3 Michal Czapski Nano sized TiC Joao Pedro Ramos Boron diffusion Christoph Seiffert Uranium Carbide Alexander Gottberg Grain size Porosity

10 10 SiC, Al 2 O 3 Development ICE-TEMPLATING METHOD (CNRS/SG CREE* patent) Open prosity 30 – 70 % *European R&D center of the market leader in SiC production Michal Czapski, S. Fernandes, et al.

11 11 Ageing, Post-Irradiation Studies (M. Czapski, et al.) SiC samples: RaBIT setup (Rapid p-beam Irradiation Transport) shuttles sent pneumatically in front of HRS front-end) beam: NORMGPS – 1.4 GeV, 3.2x10 13 /pulse (2.4 µs/1.2s, 3-4 bunches), σ = 2.3 beam: SPS – 450 GeV, 1.7x10 11 /pulse (7.2 µs/18s, 3-4 bunches), σ = 2.0 Max. cycles = 100 (desirable 10x more) Setup - 8 samples in a row SiC + Al2O3 samples: SiC, Al2O3 Development Presentation: Michal Czapski, Fri 9h50, Globe

12 PhD project of Joao Pedro Ramos Beams of Potassium (37-K, 1.22s) and Calcium( 35-Ca, 25ms) desired Ti foils and TiO 2 commonly used as material  Release too slow or material sinters  yield drop Thermally stable nano sized material needed for fast and constant release 12 TiC or/and TiO2 CNTGraphite Carbon black Development of Ti based refractory target nano- material for ISOLDE Mixed carbon with micrometric TiC showed improved release. CNT mix with UO 2 shows promising results. Carbon can act strongly against sintering in different % Attrition milling in isopropanol

13 13 1.Irradiation 2.Heat Treatment (5, 10, 20 min at T) 3.Gamma spectroscopy 4.Reheat of sample and re-measurement TiC and TiO 2 sintering studies done. Production and radioactive dose simulations were done. TiC heated for 5 min TiO 2 shows little or no release. TiC little release at 10 and 20 min (re-heated samples) => radiation enhanced diffusion TiC samples after 5 min show fractional release down to 75% until 1400 o C. Development of Ti based refractory target nano- material for ISOLDE

14 Phd project Christoph Seiffert Diffusion studies of Boron in possible target materials [1]  σ [10-B(n,α)7-Li ] =3840 barn  10-B+1n 14 [1] J. Vacik et al, On Boron diffusion in MgF2, CP1099, Application of Accelerators in Research and Industry: 20 th international Conferene Diffusion properties of Boron 6%: 7Li (1.015MeV + α (1.777MeV) 94%: 7Li (0.840MeV + α (1.470MeV) +γ(0.478MeV) B F + F B F + F 12.5 keV 10-B in carbon foil

15 Diffusion properties of Boron 15 α detector Irradiation with thermal neutrons- measure distribution  Pu-Be Source 1.1*10 8 n/s @4π Heating of sample Materials: fluorides (eg CaF 2, MgF 2 ), CNT, Al 2 O 3

16 Diffusion properties of Boron 16 α detector Irradiation with thermal neutrons- measure distribution  Pu-Be Source 1.1*10 8 n/s @4π Heating of sample Materials: fluorides (eg CaF2, MgF2), CNT, Al2O3

17 RIB production 17 Isotope production Diffusion Molten Salt Target Tania Mendonca Molten Pb-Bi Target Melanie Delonca

18 Molten Salt Target Loop for the Beta Beams 18 Tania Mendonca Inspired from 18 F production for PET imaging: NaF target loop ( 23 Na(p,X), 19 F(p,2n) 18 Ne) Rates of 10 13 18 Ne/s are predicted exploiting 1MW, 160 MeV proton beam ………. Pump Heat Exchanger Protons 7 mA, 160 MeV 18 Ne 10 13 /s Transfer line to ion source Irradiation chamber Diffusion chamber NaF:LiF 700ºC P. Zuchelli, Phys. Lett B 532 (2002) 166 Final Report of the EURISOL Design Study 2009, J. Cornell Ed., GANIL T. Stora, CERN Yellow Report, CERN-2010-003 Pb/Bi shower, Latvia E.Noah@IPUL, Eurisol DS report

19 Liquid euctectic Pb/Bi loop for EURISOL LIEBE project 19 Courtesy of V. Barozier and M. Delonca Electromagnetic pump Proton beam Irradiation volume Diffusion chamber Transfer line PhD project of M. Delonca Online test in 2015

20 Production and release of low-Z isotopes 20 CERN-ACC-NOTE-2013-0009 T.M. Mendonca et al., Submitted to NIM B Online test June 2012 100x 11 CO than database Diffusion coefficient of Ne in NaF:LiF  Dimensioning of shower 21.6 cm

21 RIB production 21 Ionization Transport Diffusion Extraction of molecular beams Christoph Seiffert

22 Production of molecular beams PhD project Christoph Seiffert Goal: Beams of 9-C as CO + and 8-B as BF n + Material studies at Off-line mass separator:  Chemical interaction  Adsorption on Surfaces  Ionization 22

23 Summary Developments aim to improve yield, purity and stability of release Further improvement of Neutron converter – S. Cimono, T.Mendonca, R.Augusto Different projects of development and improvement of material properties  SiC, Al2O3 – M. Czapski  TiC – J. P. Ramos  Diffusion of Boron – C. Seiffert  Uranium Carbide – A. Gottberg Molten salt and Pb/Bi targets – T. Mendoca, M. Delonca Material studies for the extraction of molecular beams – C. Seiffert Beam developments: http://isolde-upgrade.web.cern.ch/isolde-upgrade  ISOLDE webpage -> projects 23

24 24 Thank you

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