1 / 20

Recent activities with slow and stopped RI at Tohoku-Cyclotron

International Workshop on Physics of Nuclei at Extremes, Jan. 2010, TokyoTech. Recent activities with slow and stopped RI at Tohoku-Cyclotron. Introduction of CYRIC Production of medium- heavy neutron-rich nuclei RF Ion-guide ISOL Recent results half life of 103m Tc and 105m Ru

agnes
Download Presentation

Recent activities with slow and stopped RI at Tohoku-Cyclotron

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. International Workshop on Physics of Nuclei at Extremes, Jan. 2010, TokyoTech Recent activities with slow andstopped RI at Tohoku-Cyclotron • Introduction of CYRIC • Production of medium- heavy neutron-rich nuclei • RF Ion-guide ISOL • Recent results • half life of 103mTc and 105mRu • g-factor of 109mRh and 132mI Cyclotron and Radioisotope Center (CYRIC), Tohoku Univ.: K. Shimada, S. Hoshino, S. Izumi, H. Ouchi, A. Sasaki, T. Wakui, T. Shinozuka, RIKEN: Y. Miyashita KUR: M. Tanigaki JAEA: M. Asai, N. Sato Physics of Nuclei at Extremes, TokyoTech

  2. Cyclotron facility A A AVF Cyclotron (K=110 MeV) B HM12 Cyclotron (production of positron emitters for PET) 1 RI production 3 High-intensity fast neutron (Ep = 20-80 MeV、E = 1 MeV 、106n/cm2sA) 4 Large acceptance g-ray detector array (Hyperball2) (6 Clover type+14 Single type) 5 Heavy-ion irradiation (in air) 7 Material irradiation 8 High-resolution beam line and large scattering chamber 9 Charged particle radiation therapy 10 Beam swinger and Large solid angle neutron detection system 10 1 B 9 2 RF ion-guide isotope separator on-line (RFIGISOL) 8 6 2 6 Surface ionization ion source for electron EDM measurement 4 3 7 5 Cyclotron and Radioisotope Center (CYRIC), Tohoku University Slow RIB facility Physics of Nuclei at Extremes, TokyoTech

  3. Nuclear structure of the medium-heavy neutron-rich nuclei Life times and B(E2) of isomers Nuclear moments Independent of nuclear structure model Single-particle energies and configurations of wave function Known magnetic moments High-melting point ↓ hardly produced by ISOLDE type ISOL ↓ Development of RFIGISOL (BigRIPS, FRS) Purpose and background 132Sn Z=50 (Sn) Stable Z=28 (Ni) N=50 N=82 100Zn Physics of Nuclei at Extremes, TokyoTech RI をプローブとした物性研究へ展開

  4. Projectile-fragment separators In-flight A primary beam > A 2ndary beam ISOL (⊃ RFIGISOL) A primary beam<<A 2ndary beam<A target Target fragmentation Fission of 238U etc. ⇒ Middle-heavy neutron-rich nuclei Comparison of RI Production methods RFIGISOL⇒High-melting-point and short-life RI Physics of Nuclei at Extremes, TokyoTech

  5. =Ion + RF field + Correction of fission products with gas • Stop, thermalization and ionization • ISOL: Thermal diffusion and surface ionization • RFIGISOL: Large He gas volume and avoidance of neutralization • Independent of chemical properties • Highest ionization energy of He • How are the fission products collected to the nozzle? Fission products ISOL RFIGISOL Recoil with several MeV Ionizer DC field Gas stream U target U target f 200 mm Recoil, ~MeV Exit hole f 1 mm Proton Proton 3-kPa He ~3000K 300 mm Physics of Nuclei at Extremes, TokyoTech

  6. RF electrodes (RF carpet) y RF phase x Trapping potential (for ion in resonance) w y x EDC Track of ions ERF Base film: 50-μm-thick kapton Electrodes: 360 rings at 0.6-mm intervals Φ220 mm exit hole 1.2 mmf originally developed by M. Wada, RIKEN Physics of Nuclei at Extremes, TokyoTech

  7. Typical parameters of RFIGISOL Stop and thermalization: He gas(3 kPa), ~104 cm3 Target: natural Uranium (Effective thickness: 190 mg/cm2) Guide: DC field (~5 V/cm) Giude: RF field (~3 MHz, ~50 Vpp) Acceleration: DC 30 kV m Mass spectrometer Proton beam (50 MeV, 1 mA) Extraction: Gas jet +DC field (~1 kV) CYRIC 2nd target room Physics of Nuclei at Extremes, TokyoTech

  8. Photo~RFIGISOL chamber He gas: 3 kPa DC field: 5 V/cm RF field: 3 MHz,50 Vpp Acceleration: DC 30 kV Mass spectrometer proton U target Physics of Nuclei at Extremes, TokyoTech

  9. Primary beam: Proton, 50 MeV, 1 μA Yield at beam-line end, after passing mass spectrometer Yields with RFIGISOL Bold: 2009 Normal: 2007 Stable line 132Te~1000 0.1 111Tc ~1100 111Ru ~7100? 114Pd ~9000 [particles/sec] Obtained Yields 1 mb 112Rh ~4000 112Ru ~400 109Tc ~1300 109Ru ~1300 Fission production cross section 10 mb 107Tc ~2400 107Ru ~4600 100Nb ~1300 100Zr ~1300 100Y ~400 105Tc ~2400 ∝Expected Yields 91Rb ~400 132Sn 80As ~200 80Ge ~200 125Pd (BigRIPS) Recent experiments 100Zr T1/2: 103mTc, 105mRu 119Cd ~800 119Ag ~400 78Ni g-factor: 109mRh, 132mI Physics of Nuclei at Extremes, TokyoTech

  10. Recent experiments (1)Life-time measurement Physics of Nuclei at Extremes, TokyoTech

  11. Setup of life-time measurement 2. Transfer: ~5 s • Detectors for life-time measurement • good time resolution • Planar Ge: ~1 ns • BaF2: ~0.01 ns • System: 5 ns • good energy resolution • 10-ns isomers→Measurable • Beam monitor (co-axial Ge) 1. Implantation: ~1τ 3. Measurement: ~1τ Physics of Nuclei at Extremes, TokyoTech

  12. Recent experiments (1) Life of Isomer 105Ru 103Tc 1ch = 0.25 nsec [K. Shimada, H. Ouchi, Tohoku Univ.] [Y. Miyashita, Tohoku Univ. / RIKEN] (5/2-,3/2-) 3/2+,5/2+ (5/2)+ Preliminary results • 163.74 keV : 55 ns → ~18 ns • 246.26 keV : ~15 ns Preliminary result • 83.38 keV : ~40 ns Physics of Nuclei at Extremes, TokyoTech

  13. Recent experiments (2)g-factor measurement Physics of Nuclei at Extremes, TokyoTech

  14. Time differential Perturbed Angular Correlation methods (TDPAC) Bext g1=0 °, g2 intensity distribution det. 3 180° det. 1 0° det. 2 90° Physics of Nuclei at Extremes, TokyoTech

  15. (2) g-factor in 109mRh (Ex=225.98 keV, T1/2=1.66 ms) + 0.17 - 0.03 g = 0.78 [mN] [Y. Miyashita, Tohoku univ. / RIKEN] On-line TDPAC method (Time differential perturbed angular correlation) TDPAC spectrum B = 0.34 T Detection system Tape transport system BaF2 detectors Ge detectors Magnet (0.34 T) Tape Physics of Nuclei at Extremes, TokyoTech

  16. Magnetic moments magnetic moment or - 0.02 - 0.03 - 0.03 - 0.05 109Rh 225 keV state simple single-particle + excited-core coupling a proton core: excited 2+ or 4+ in 108Ru 1g9/2, 1g7/2, 2d5/2, 2d3/2, 3s1/2 m of single-particle ground state Physics of Nuclei at Extremes, TokyoTech

  17. Magnetic moment in 132mI Tanigaki, PRC80(2009)034304 PAC spectrum in the Ni foil ( Bhf = +26.5 ±0.5 T ) BaF2 detectors×3 m = +(2.06 ± 0.18)mN Physics of Nuclei at Extremes, TokyoTech

  18. Comparison of a simple jj-coupling model of odd-odd nucleus odd-odd nucleus is described based on a jj-coupling model m(mN) Ref. Experiment +2.06 ± 0.18 This work +2.22 ± 0.30 Singh et al. by TIPAC Calculation (pg7/2)(nd3/2)−1 +2.40 (pd5/2)(nd3/2)−1 +2.83 Values for empirical g factors (pg7/2) +2.80 Av. 131,133I (pd5/2) +2.81 Av. 129,131I (nd3/2)−1 +0.75 Av. 131Te, 133Xe ←proton-odd ←neutron-odd Physics of Nuclei at Extremes, TokyoTech

  19. Summary • CYRIC facility • 2 cyclotrons and 10 beam lines • Production of RI beam using RFIGISOL • RFIGISOL • ISOL specified for high-melting-point and short-life nuclei • Large He gas buffer and RF carpet • Recent results • life-time: 105mRu,103mTc • Planar Ge-BaF2 system • g-factor and μ: 109mRh,132mI • TDPAC • Next plan: g-factor of 105mRu Physics of Nuclei at Extremes, TokyoTech

  20. Thank you for your attention Physics of Nuclei at Extremes, TokyoTech

More Related