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Pear-shaped nuclei measured via Coulomb excitation at REX- ISOLDE Liam P. Gaffney EuNPC2015 University of the West of Scotland, UK University of Liverpool,

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Presentation on theme: "Pear-shaped nuclei measured via Coulomb excitation at REX- ISOLDE Liam P. Gaffney EuNPC2015 University of the West of Scotland, UK University of Liverpool,"— Presentation transcript:

1 Pear-shaped nuclei measured via Coulomb excitation at REX- ISOLDE Liam P. Gaffney EuNPC2015 University of the West of Scotland, UK University of Liverpool, UK Peter Butler PhD Supervisor

2 Described by a multipole expansion in λ Multipole order: 2 λ 2 0 = monopole - breathing mode 2 1 = dipole - centre of mass shift 2 2 = quadrupole - axial deformation 2 3 = octupole - asymmetric deformation 2 4 = hexadecapole - pinching Nuclear Shapes Liam Gaffney - EuNPC2015 2

3 Reflection Asymmetry (Nuclei) Liam Gaffney - EuNPC2015 3 Macroscopically... Nuclei take on a “pear” shape Reflection asymmetric β 3 -vibration Static β 3 -deformation Rigid β 3 -deformation... Signatures... Odd-even staggering, negative parity Parity doublets in odd-A nuclei Collective B(E3) transitions

4 224 Ra Reflection Asymmetry (Molecules) Liam Gaffney - EuNPC2015 4 Asymmetric HCl molecule Rotational band – staggering of odd and even spin states F. Stephens, Jr., F Asaro and I. Perlman Phys. Rev. 96 (1954) 1568, 100 (1955) 1543

5 Reflection Asymmetry Liam Gaffney - EuNPC2015 5 Microscopically driven... Intruder orbitals of opposite parity and ∆J, ∆L = 3 close to the Fermi level εFεF 20 28 50 82 126 184 34 56 88 134 Enhancement of octupole part of nucleon-nucleon force... - Small energy gap - High sub-state density } Heaviest nuclei

6 Quantifying the pear-shape Liam Gaffney - EuNPC2015 6 L.M. Robledo et al., Phys. Rev. C 81, 034315 (2010) RaRa Mean-field calculations reproduce behaviour of E1 transitions Two contributions to Q 1 : - Macroscopic of the order +0.1 fm - Microscopic of the order -0.1 fm Cancellation gives small B( E1 ) in 224 Ra

7 Quantifying the pear-shape Liam Gaffney - EuNPC2015 7 Pros: - Less sensitive to single particle effects - Direct measure of octupole collectivity - Link to deformation via β 3 parameter Cons: - Difficult to access E3 transitions - Excited state decay dominated by E1/E2 B(E3) >~ 30 s.p.u. gives significant β 3

8 Coulomb Excitation Liam Gaffney - EuNPC2015 8 Projectile (Z 1,A 1 ) Target (Z 2,A 2 ) b θ v Sommerfeld parameter: “Safe” Coulex: Dominated by E2 and E3 excitation near the Coulomb barrier

9 Octupole Collectivity Liam Gaffney - EuNPC2015 9 Rn (Z=86)? Z = 34 Z = 56 Z = 88N = 134 226 Ra

10 1.4 GeV p + primary target Hot W line (Ra) HRS REXTRAP + EBIS Post acceleration up to 3 MeV/u Miniball VADIS (Rn) GPS REX-ISOLDE, CERN Liam Gaffney - EuNPC2015 10

11 Miniball @ REX-ISOLDE 11 220 Rn/ 224 Ra beam @ ~2.83 MeV/u Coulex target ~2 mg/cm 2

12 Miniball: Coulex set-up Liam Gaffney - EuNPC2015 12 Particle ID in a Double- Sided Si Strip Detector. Event by event Doppler correction. 17˚ < θ lab < 54˚ Array of HPGe of 8 triple clusters 6-fold segmentation for positioning ε > 7% for 1.3MeV γ-rays N. Warr et al., EPJ 49 (2013)

13 Particle-gamma coincidences Prompt Random Normalisation = t prompt t random 224 Ra 120 Sn Liam Gaffney - EuNPC2015 13

14 60 Ni target - 2.1mg/cm2 120 Sn target - 2.0mg/cm2 224 Ra 60 Ni target - 2.1mg/cm2 120 Sn target - 2.3mg/cm2 220 Rn Spectra - 220 Rn and 224 Ra Liam Gaffney - EuNPC2015 14 Heaviest short-lived ISOL beams to date

15 Analysis - 224 Ra Gosia Liam Gaffney - EuNPC2015 15 16 free matrix elements + 6 normalisation factors “Experiment”Number and type of data Multi-nucleon transfer[1,2] 226 Ra( 58 Ni, 60 Ni) 224 Ra 232 Th( 136 Xe, 128 Te) 224 Ra Alpha, alpha-prime[3] 226 Ra(α,α’2n) 224 Ra Alpha(beta)-decay[4] 228 Th( 224 Fr) → α(β) Branching ratios (1 -, 3 -, 5 -, 7 -, 2 + γ ) -- 5 Delayed-coincidence [5,6]Lifetimes (2 +, 4 + ) -- 2 Cd/Sn high CoM range 23.9˚ < θ lab < 40.3˚ γ-ray yield -- 8 + 7 Ni high CoM range 23.1˚ < θ lab < 39.9˚ γ-ray yield -- 10 Cd/Sn low CoM range 40.3˚ < θ lab < 54.3˚ γ-ray yield -- 8 + 8 Ni low CoM range 39.3˚ < θ lab < 53.2˚ γ-ray yield -- 7 Total55 data points [1] Poynter et al., Phys. Lett. B 232, 447 (1989) [2] J.F.C. Cocks et al., Nucl. Phys. A 645, 61 (1999) [3] Marten-Tölle et al., Z. Phys. A 336, 27 (1990) [4] W. Kurcewicz, et al., Nucl. Phys. A 289 (1977) [5] W.R. Neal and H.W. Kraner, Phys. Rev. 137, B1164 (1965) [6] H. Ton et al., Nucl. Phys. A 155, 235 (1970)  2 total = 27

16 Results - 224 Ra Liam Gaffney - EuNPC2015 16 Consistent with rotational model Unstretched E3 matrix elements are non- zero. Coupled with level energy data, we observe a static octupole deformation in 224 Ra

17 Results - 220 Rn Liam Gaffney - EuNPC2015 17 Consistent with rotational model. No information on unstretched E3. Much larger data set required to determine if vanishes. δE and Δix implies a coupling of an octupole phonon to the even-spin rotational band. Dynamic collectivity in 220 Rn Fit: 34 data points -> 21 free parameters January 2015: 146 Nd, 148 Sm, 152 Gd measure with MINORCA (Miniball at Orsay)

18 Static or dynamic pear-shape? Liam Gaffney - EuNPC2015 18 Octupole phonon coupled to even-spin rotational band. Even-spin band O Odd-spin band J.F.C. Cocks et al., Nucl. Phys. A 645, 61 (1999) Odd-spin states aligned to intrinsic rotational structure of the even-spin band.

19 Statically deformed or vibrational? Liam Gaffney - EuNPC2015 19 Octupole vibrational Our data Radioactive beams

20 Q1Q1 Q2Q2 Q3Q3 Comparison to theory Liam Gaffney - EuNPC2015 20 Cluster model [1] - Misses small Q1 - Q 2 is consistently too low - Q 3 trend not observed Mean field, HFB with D1S or D1M [2] - Predicts cancelation of Q 1 - Differences in Q 3 predictions More (good) mean-field models on the market Important Q 2 -Q 3 coupling [3] [3] Robledo & Butler (2013). Phys. Rev. C, 88 051302R [1] Shneidman, et al. (2003). Phys. Rev. C, 67(1) 14313 [2] Robledo & Bertsch (2011). Phys. Rev. C, 84(5) 54302. 2 nd place to ICECube

21 Electric Dipole Moment (EDM) Liam Gaffney - EuNPC2015 21 A static atomic EDM implies CP-violation or equivalently T-violation Schiff theorem: neutral atomic system of point particles in electric field readjusts itself to give zero E field at all charges. BUT: finite size of nucleus and shape of charge distribution can break the symmetry RadonEDM @ TRIUMF (S929) 221,223 Rn Radium EDM experiment @ ANL 225 Ra TRIμP @ KVI (+atomic sensitivity) 209-214 Ra Atomic EDM proportional to Schiff moment - Experiments are taking advantage of this in North America and right here in Groningen! 

22 Octupole enhanced EDM Liam Gaffney - EuNPC2015 22 Current Limit: |d( 199 Hg)| < 3.1x10 -29 e cm [1] [2] W. C. Griffith et al. Phys. Rev. Lett. 102, 101601 (2009) Schiff moment 224 Ra Energy splitting of parity doublets [1] J. Dobaczewski, & J. Engel, Phys. Rev. Lett., 94, 232502 (2005) [3] M. Pospelov & A. Ritz, Annals of Physics, 318, 119 (2005) 225 Ra ∆E = 55 keV 221 Rn ∆E = ?? keV Sensitivity increase of ~1000 for octupole deformed nuclei + experimental improvements [1]

23 Preliminary Coulex of 221 Rn Liam Gaffney - EuNPC2015 23 K X rays 201 keV 224 keV 273 keV 290 keV - doublet Large x-ray excess implies strongly converted, low-energy transitions which are not observed...... SPEDE - e - detector for MINIBALL Experiment to be re-run to define level scheme Complementary β-decay experiment in the pipeline (LOI @ ISOLDE) Courtesy of George O’Neill, PhD student University of Liverpool

24 Summary and outlook Liam Gaffney - EuNPC2015 24 Demonstrated sensitivity and ability to measure E3 matrix elements with Radioactive Ion Beams (RIBs). B(E3; 3 -  0 + ) measured for the first time in Rn’s and only second measurement in Ra’s, both to ~10% precision. Proposal for measurements in 222,226,228 Ra and Ba region at HIE-ISOLDE (starting next year). Plus odd-mass nuclei ( 221 Rn), in progress Odd-mass nuclei key to atomic EDM measurements. Nuclear structure input vital; beginning to appear.

25 Collaborators Liam Gaffney - EuNPC2015 25 T.E. Cocolios, J. Pakarinen, J.Cederkall, D. Voulot, F. Wernander Th. Kröll, S. Bönig, C. Bauer, M. von Schmid B. Bastin T. Grahn, A. Herzan A. Blazhev, M. Seidlitz, N. Warr, M. Albers, M. Pfeiffer, D. Radeck M. Rudigier, P. Thöle P. van Duppen, N. Bree, J. Diriken, N. Kesteloot, M. Huyse S. Sambi, K. Reynders L. P. Gaffney, P. A. Butler, M. Scheck, D.T. Joss, S.V. Rigby E. Kwan T. Chupp K. Wimmer, R. Lutter D. Cline, A.B. Hayes, C.Y. Wu P. Napiorkowski, M. Kowalczyk, K. Wrzosek-Lipska D.G. Jenkins M. Zielinska CERN-ISOLDE, Switzerland TU Darmstadt, Germany Ganil, France University of Jyväskylä, Finland University of Köln, Germany KU Leuven, Belgium University of Liverpool, UK Lawrence Livermore Laboratory, US University of Michigan, US TU München, Germany University of Rochester, US HIL University of Warsaw, Poland University of York, UK CEA Saclay, France Thank you! Dankjewel! and the REX-ISOLDE and MINIBALL collaborations

26 Future measurements Liam Gaffney - EuNPC2015 26 [1] Robledo, L. M., & Bertsch, G. F. (2011). Phys. Rev. C, 84(5), 54302. 226,228 U 226 Th Estimated intensity at FRIB for 228 U ~ 4x10 6 s -1 [2] P.T. Greenlees et al. J. Phys. G: Nucl. Part. Phys. 24 (1998) L63 [1] Robledo & Bertsch (2011). Phys. Rev. C, 84(5) 54302.

27 Q4 2015 1.2 MeV/u 3 MeV/u 3 MeV/u 4.5 MeV/u 10 MeV/u 8 MeV/u 8 MeV/u 221,222 Rn 222,226,228 Ra 144 Ba 5.5 MeV/u Q2 2017 HIE-ISOLDE 27 High Intensity and Energy upgrade CERN Long Shutdown; HIE-ISOLDE upgrade synchronised First experiments expected next month ( 182,184 Hg, ; October 2015!!)

28 Analysis - 220Rn: High/Low θ Liam Gaffney - EuNPC2015 28 High CoM θ Low CoM θ

29 Analysis - 220Rn γ-γ Liam Gaffney - EuNPC2015 29 γ(697 keV)

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