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In-beam gamma-ray spectroscopy of exotic nuclei Sarmishtha Bhattacharyya Variable Energy Cyclotron Centre Kolkata Plan of the talk :  Physics interest.

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Presentation on theme: "In-beam gamma-ray spectroscopy of exotic nuclei Sarmishtha Bhattacharyya Variable Energy Cyclotron Centre Kolkata Plan of the talk :  Physics interest."— Presentation transcript:

1 In-beam gamma-ray spectroscopy of exotic nuclei Sarmishtha Bhattacharyya Variable Energy Cyclotron Centre Kolkata Plan of the talk :  Physics interest in exotic nuclei  Neutron rich Ca and Ar isotopes beyond N=28  Neutron rich nuclei around N=20  Deep-inelastic reaction with RIB  Transfer reactions with RIB after fragmentation  Possibilities at ISOLDE

2 Stable nuclei - Magic Number : spin-orbit interaction Exotic nuclei - Evolution of new Magic Number ? weakening of spin-orbit interaction - Development of collectivity What is happening away from stability ? What are the limits of existence for bound nuclei? Which are the properties of exotic nuclei at the limits of binding? What’s new? collective motion, shapes, decay modes?

3 Proton number 20 Neutron number 2834 Neutron rich Ca isotopes : question of N=34 gap N/Z1.401.481.561.641.721.801.88 - 10 0 -5 f 5/ 2 p 1/2 p 3/2 f 7/2 48 Ca 54 Ca 48 Ca 49 Ca 50 Ca 51 Ca 53 Ca 55 Ca 52 Ca 54 Ca 56 Ca 20 28 N/Z = 1.5 N/Z = 1.4 N/Z = 1.7 ! Pronounced shell gap in 54 Ca ? M. Honma et al, EPJ A25, 499, 2005.

4 B. Bastin et al. PRL 99, 022503 (2007) New region of deformation near N=28 Z=16 N=26 Z=16 N=28 D. Sohler et al. PRC 66, 054302 (2002) Breakdown of N=28 shell gap at Z=14 Erosion of N=28 shell closure at Z=16 Shape mixing in low energy states γ-soft  high collectivity  strong deformation ( β=0.45)  no magicity Coexistence of 1p-1h and 2p-2h Configuration D. Santiago-Gonzalez et al PRC, 83, 061305(R) (2011)

5 46 S 48 Ar p3/2 28 f7/2 d5/2 s1/2 d3/2 14 d5/2 48 Ar 28 14 s1/2 d3/2  shape coexistence well deformed (axial) spherical Strong presence of N ph excitations from νf 7/2 orbital Role of neutron proton correlation on collective motion Strong quadrupole interaction between Protons in sd and neutrons in pf Rapid development of collectivity Development of collectivity near N=28 onset of deformation

6 Deep inelastic reaction with stable heavy beam @ GANIL Production of neutron-rich nuclei around Z=20 238 U @ 5.5 MeV/u (N/Z=1.58) ~ 12% above barrier 48 Ca (1 mg/cm 2 ) (N/Z=1.4) 11 Nos. segmented Clover detectors High v/c (~ 14%) of fragments Accurate Doppler correction is must !! Determination of Angle event by event Velocity of fragment (VAMOS Reconstruction) and segments of EXOGAM Clover Collaboration: M. Rejmund, S. Bhattacharyya, A. Navin, W. Mittig, L. Gaudefroy, M. Gelin, G. Mukherjee, F. Rejmund, P. Roussel-Chomaz, (GANIL, France) Ch. Theisen (CEA, Sacley, France) E. Caurier, F. Nowacki, M. Rousseau (IPHC, Strasbourg) A. Poves (IFT/CSIC, Universidad Autonoma de Madrid, Spain) A. Hodsdon, X. Liang, R. Chapman, D. O’Donnell, K.-M. Spohr (Paisley, Scotland, UK)

7 IC Energy loss (ΔE) SED (TOF) Silicon Wall 7 x 3 (500 µm) (E) Drift Chamber Tracking (X f,Y f ) Identification M/q ~ Bρ x TOF M ~ E x TOF 2 Z ~ E x ΔE Q=20 Q=19 Q=22 Q=21 Q=18 Q=17 238 U @ 5.5 MeV/u + 48 Ca VAMOS @ 35° -2p+2n 48 Ar+ 238 Th -1p+0n 49 K+ 237 Np 0p+4n 52 Ca+ 234 U +1p+0n 53 Sc+ 233 Pa +2p+6n 57 Ti + 229 Pu

8 Neutron rich Calcium isotopes F. Perrot, PhD thesis, 2004 R. Broda et al., Acta Phys. Plolonica B36, 1343, 2005 A. Gade et al., Phys. Rev. C, 021302(R), 2006 M. Rejmund et al., PRC 76, 021304(R) (2007)

9 Look for odd cases : does 5 1Ca has the answer ?

10 48 Ar Appearance of a low lying γ-band Deviation from axial symmetry (3 + ) Signature of triaxiality in 48 Ar β=0.25, γ=40 o Signature of triaxiality : E(2 + 2 )/E(2 + 1 ) = 2.1 E(4 + 1 )/E(2 + 1 ) = 2.6 Agreement with Davydov and Filipov S. Bhattacharyya et al., PRL 101, 032501 (2008)

11  Nuclear structure of nuclei going towards the n drip line  Probing the structure of neutron-rich O, F and Ne isotopes  In-beam  spectroscopy with deep-inelastic collision using RIB  Cross section measurements Deep Inelastic Collisions using Radioactive Ion Beam 24 Ne beam on 208 Pb H He Li Be B C N O F Ne Na Mg 24 Ne Collaboration: Università degli Studi and INFN sezione di Milano LNL, Laboratori Nazionali di Legnaro Università and INFN sezione di Padova Università di Camerino and INFN Perugia INFN sezione di Genova The Niewodniczanski Institute, Krakow Institut de Physique Nucleaire, Orsay IRES Strasbourg GANIL, Caen IPN, Lyon

12 Reaction: 24 Ne @ 7.923 MeV/A + 208 Pb 24 Ne 5+ from SPIRAL-ISOL facility I beam ~ 1.5. 10 5 pps Setup: VAMOS + EXOGAM VAMOS @ 45° EXOGAM 11 detectors Setup

13 Experimental mass distributions G. Benzoni et al EPJ A 45, 287 (2010). Measured experimental yields of the detected nuclei reported as percentage relative to 24 Ne, compared to GRAZING predictions.

14 25 Ne Excited states in 25 Ne d( 24 Ne,p  ) 25 Ne 7/2- 1/2+ 3/2+ 5/2+ 0 984 1698 3761 27 Mg W.N. Catford et al PRL 104, 192501 (2010). 26 Mg(d,p) 27 Mg 25 Ne F. Meurders et al NPA 230, 317 (1974) Raising in energy of 0d 3/2 orbital in neutron-rich nuclei Monopole shift in the effective 0d 3/2 single particle energy  opens N=16 gap

15  -ray spectroscopy of neutron-rich nuclei around N=20  To study the excited states of neutron-rich nuclei around N=20  Cocktail radioactive beam around 34 Si & 32 Mg on a CD 2 target  Focus on: 34 Si, 32 Mg & odd-A nuclei N=20 shell closure Effective single-particle Energies for N=20 isotones Effective single-particle Energies for N=20 isotones Y.Utsuno et al., Phys. Rev. C64, 011301R 32 Mg 34 Si Probabilities of np-nh configurations for N=20 isotones Probabilities of np-nh configurations for N=20 isotones 20 Collaboration: H. Savajols, W. Mittig, P. Roussel-Chomaz, M. Rejmund, M. Gelin, G. Mukherjee, G. De France, S. Bhattacharyya, A. Navin (GANIL) A. Gillibert, A. Obertelli, Ch. Thiesen (DAPNIA/SPhN Saclay) S. Lukyanov, V. Maslov, Y.E. Penionzhkevich (FLNR,JINR Dubna, Russia) D. Baiborodin, Z. Dlouhy (NPI, Czech Republic) M. Caamano (Universidade de Santiago de Compostella, Spain)

16 * Inelastic scattering / transfer reaction with cocktail RIB: Populates excited states in a number of nuclei. 3 - states are strongly populated. *  coincidence measurement: Search for the 0 2 + in 34 Si Spectroscopy of odd-A nuclei * Angular distribution of the  -ray transitions To determine the multipolarity. Experiment with RIB via Fragmentation Population of the excited states: Target: CD 2 (30 mg/cm 2 ) Mechanism: Reactions like (d,d / ), (d, 3 He), (d,t) …etc. Production of RIB around 34 Si and 32 Mg: Primary beam: 36 S (77 MeV/A) Primary Target: ~ 1gm/cm 2 Ta (SISSI) Selection:  - spectrometer Energy: ~ 30 MeV/A

17 Setup VAMOS EXOGAM 11 detectors: 4 at forward angle 3 around 90 o 4 at backward angle VAMOS Beam identification  -ray detection Recoil detection/identification EXOGAM DE-TOF technique: Ionization Chamber and MCP Before the target GALLOT

18  E_BT TOF_BT Al Mg Na 30 32 31 IC:  E_BT MCP: TOF_BT 20 m GT GO beam Si 30 29 28 33 32 31 35 34 33 34 30 < 10 2 10 2  10 3 > 10 4 pps TOF_BT M/Q IN – OUT Correlation 32 Mg 34 Al, 29 Na 31 Mg 33 Al 30 Na 30 Mg, 35 Si 32 Al (d,t) like (d,d / ) like (d, 3 He) like 34 Si 32 Mg d( 33 Al, 32 Mg) 3 He 32 Al d( 33 Al, 32 Al)t VAMOS Focal PlaneIdentification

19 12 GOCCE rings: Forward: 30 0, 40 0, 50 0, 60 0 Middle: 75 0, 85 0, 95 0, 105 0 Backward: 120 0, 130 0,140 0,150 0 A D C B 1 4 3 2 ECC Clover crystal GOCCE Energy from crystal Angle from GOCCE * Doppler correction *Angular distribution Gamma detection Clover Crystal Gocce 32 Mg VAMOS :  Recoil velocity (v ~ 6.8 cm/ns) Doppler correction for 885 keV  -ray in 32 Mg 6 Crystal rings: Forward: 36 0,56 0 Middle: 80 0, 100 0 Backward: 124 0, 144 0

20 34 Si  -ray Angular distribution using EXOGAM segments Spectroscopy of 34 Si State at 3996 keV : Possible candidate for intruder 0 + state M. Gelin et al., Ph.D. thesis, Universite´ de Caen, 2007.

21 Complimentary experiments around ‘island of inversion’ @ REX-ISOLDE K. Wimmer et al. PRL 105, 252501 (2010) Discovery of the Shape Coexisting 0 + State in 32 Mg - Two Neutron Transfer Reaction in inverse kinematics Transfer Reactions Measure B(E2) : Coulomb Excitation O. Niedermaier et al. PRL 94, 172501 (2005) 31 Mg 30 Mg M. Scidlitz et al. PLB 700, 181 (2011)  Coulomb excitation and moment measurements around Z=20  Deep-inelastic transfer reactions with MINIBALL + SPECTROMETER (?) Possible complimentary experiments @ REX-ISOLDE / HIE-ISOLDE Moment measurements Magnetic moment of 31 Mg 33 Mg - hyperfine structure and nuclear magnetic resonance - spin and magnetic moment - both 31 Mg and 33 Mg belong to ‘island of inversion’ D. T. Yordanov et. al. PRL 99, 292501 (2007)

22 Summary Neutron rich nuclei around Z=20 Deep-inelastic multi-nucleon transfer Direct tagging of exotic nuclei Neutron rich Ca isotopes : question of a new shell closure Development of collectivity near N=28 Deep-inelastic reaction with radioactive beam from ISOL-SPIRAL excited states of 25 Ne Neutron rich nuclei around N=20 island of inversion transfer reaction with RIB via fragmentation Complimentary experiments at ISOLDE Thank you

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