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B elgian R esearch I nitiative on e X otic nuclei ISOLDE INTC-P-316 Spokespersons: G. Neyens, M.M. Rajabali, K.U. Leuven Local contact: K.T. Flanagan,

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Presentation on theme: "B elgian R esearch I nitiative on e X otic nuclei ISOLDE INTC-P-316 Spokespersons: G. Neyens, M.M. Rajabali, K.U. Leuven Local contact: K.T. Flanagan,"— Presentation transcript:

1 B elgian R esearch I nitiative on e X otic nuclei ISOLDE INTC-P-316 Spokespersons: G. Neyens, M.M. Rajabali, K.U. Leuven Local contact: K.T. Flanagan, Univ. Manchester K.U. Leuven, Belgium: M.L. Bissel, I. Budincevic, R. Garcia-Ruiz, G. Neyens, J. Papuga, M.M. Rajabali University of Manchester, U.K.: K.T. Flanagan, J. Billowes, B. Cheal, K.M. Lynch, T.J. Proctor ISOLDE, CERN, Geneva, Switzerland: T.E. Cocolios, H.A. Khozani, K.M. Lynch, B. March, S. Rothe MPI fur Quantenoptik, Garching, Germany: M. Hori, H.A. Khozani, A. Soter University of Tokyo, Tokyo, Japan: T. Kobayashi IPN-Orsay, France: F. Le Blanc, D. Verney New York University, New York, USA: H.H. Stroke Mainz University, Germany: K. Wendt Collinear resonant ionization spectroscopy for neutron rich copper isotopes

2 Study magicity of Z=28 and N=50 in 78 Cu ( = 78 Ni + 1p -1n) ? GENERAL MOTIVATION 78 Ni p -n Study evolution of single particle levels towards 78 Ni Measure spins and moments of 76,77,78 Cu Search for long-lived isomers in 76,77,78 Cu and measure their spin and moments  possible spin-gap isomer in 78 Cu, related to neutron in d 5/2 69 71 73 7577 K.T. Flanagan et al., PRL103, 142501 (2009) odd-Cu g..s spins and moments U. Koester et al., PRC84, 034320 (2011) 77Cu g.s. spin and magnetic moment K.T. Flanagan et al., Phys. Rev. C 82, 041302(R) (2010) 72,74Cu g.s. spins and moments (  parity, wave function)

3 Available decay spectroscopy information on 76,78 Cu isotopes is not conclusive ! Need firm ground state spin assignments to allow interpretation of spectroscopy data (including Ni mother isotopes and Zn daughter isotopes) SPECIFIC MOTIVATION C. J. Gross et al. Acta Phys. Pol. B40, 447 (2009). J. Van Roosbroeck et al. Phys. Rev. C71, 054307(2005). N. Patronis et al. Phys. Rev. C80, 034307(2009). J.A. Winger et al. Acta Phys. Pol. B39, 525(2008). N. A. Smirnova et al. Phys. Rev. C69,044306(2004) U. Koster et al. Phys. Rev. C84,034320(2011)  -decay Theory ISLS  -decay J. Van Roosbroeck et al. Phys. Rev. C71, 054307(2005) J.A. Winger et al., PRC 42, 954 (1990) 2 long-lived states  -decaying isomer or not ?

4 EXPERIMENTAL TECHNIQUE: CRIS Collinear Resonance Ionization Spectroscopy EXPERIMENTAL TECHNIQUE: CRIS Collinear Resonance Ionization Spectroscopy Combine the best of two methods: - collinear laser spectroscopy  high resolution ( ~ 50 MHz) BUT low detection efficiency: 1 photon /30.000 ions reduce non-resonant photon background using bunched beams (ISCOOL) Measure: μ Q s δ spin 5/2 most intense line 3 2 S 1/2 3 2 P 3/2 1/2 3/2 7/2 3/2 5/2  < 0 74 Cu, I=2 Photon counts Need > 10 4 ions/s 325 nm

5 EXPERIMENTAL TECHNIQUE: CRIS Collinear Resonance Ionization Spectroscopy EXPERIMENTAL TECHNIQUE: CRIS Collinear Resonance Ionization Spectroscopy Combine the best of two methods: - resonance ionisation spectroscopy  high detection efficiency (ions), low background 77Cu – in-source BUT low resolution (if done in-source) Measure: μ (spin) Need < 10 ions/s detect resonantly excited ions U. Koester et al., PRC84, 034320 (2011)

6 EXPERIMENTAL TECHNIQUE: CRIS Collinear Resonance Ionization Spectroscopy EXPERIMENTAL TECHNIQUE: CRIS Collinear Resonance Ionization Spectroscopy Combine the best of two methods: - collinear laser spectroscopy  narrow linewidth due to acceleration to 40 keV + resonance ionisation spectroscopy  high detection efficiency, low background Need < 10 ions/s Measure: μ Q s δ spin Assumed 300 MHz linewidth due to frequency trippling after pulsed dye amplification 77Cu – CRIS 4 P 3/2 4 P 1/2 244 nm 249 nm 355 nm

7 EXPERIMENTAL TECHNIQUE: CRIS Collinear Resonance Ionization Spectroscopy EXPERIMENTAL TECHNIQUE: CRIS Collinear Resonance Ionization Spectroscopy two-step resonance ionisation into continuum 4 P 3/2 4 P 1/2 244 nm 249 nm 355 nm 2 S 1/2 mcp-detector +  -decay +  -decay detection station Cu-I Pulsed ion beam from ISCOOL CW pulsed amplified laser for resonant excitation Pulsed laser beam for ionization

8 Cu PRODUCTION RATES  78 Cu measured yield = 200 ions/  C  accessible with CRIS method  79 Cu extrapolated yield = few ions/  C Limit for optical detection ~ 10 4 ions/  C Limit for CRIS ~ 10 ions/  C

9 BEAM TIME request - 2 shifts with stable 63,65 Cu prior to the run - 12 shifts with radioactive Cu isotopes To measure the hyperfine structure of 76,77,78 Cu relative to that of 69,71 Cu and 72 Cu  spins, magnetic moments, quadrupole moments, isotopes shifts

10  244 nm:  and  249 nm: Q (low precision)

11 Honma Brown Sieja and Nowacki PRC81, 061303(R),2010 56Ni core 48Ca core

12 69 71 73 7577 interaction starting from a 48 Ca core ( Sieja and Nowacki, PRC81 061303(R),2010) interaction starting from a 56 Ni core (Flanagan et al., PRL 103, 142501,2009) Brown, Lisetsky jj44b Theories reproduce lowering of 5/2 - in 75 Cu  The ½ level is lowered by openening N=28 shell  The 3/2- is pushed up by ~ 1 MeV in 79 Cu Assign spins to levels in 71,73,75 Cu: Stefanescu et al. Phys. Rev. Lett. 100, 112502 (2008) Daugas et al., Phys. Rev. C C 81, 034304 (2010) Consequences for spectroscopy – shell model tests

13

14 FWHM=60 MHz FWHM=300 MHz  = -1.068  N  = -1.347  N  = -0.4  N

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