Nucleus Nucleus 2015 – Catania 21-26 June 2015 Catania, June 25 th 2015 Univ. degli Studi di Napoli Federico II & INFN - Napoli Study of cluster structures.

Slides:

Advertisements

Similar presentations

First results of reactions induced by exotic beams in the region of 11 Be with CHIMERA array EURORIB'10 -Lamoura, Jura, France June 6 th -11 th 2010 L.

Advertisements

Grupo de Física Nuclear Experimental G F E N CSIC I M E January 2006, Hirschegg, AustriaM.J.G. Borge, IEM CSIC1 Hirschegg’06: Astrophysics and Nuclear.

HIGS2 Workshop June 3-4, 2013 Nuclear Structure Studies at HI  S Henry R. Weller The HI  S Nuclear Physics Program.

Marina Barbui Trento, Italy, April 7-11, 2014

Invariant-mass spectroscopy of neutron halo nuclei Takashi Nakamura 中村隆司 Tokyo Institute of Technology 東京工業大学中日 NP 06, Shanghai.

Be BeTe BeO Gamma-ray spectroscopy of cluster hypernuclei : 9  Be K. Shirotori for the Hyperball collaboration, Tohoku Univ. 8 Be is known as the  -

Alpha Stucture of 12 B Studied by Elastic Scattering of 8 Li Excyt Beam on 4 He Thick Target M.G. Pellegriti Laboratori Nazionali del Sud – INFN Dipartimento.

Reaction dynamics of light nuclei around the Coulomb barrier Alessia Di Pietro INFN-Laboratori Nazionali del Sud ARIS 2014Alessia Di Pietro,INFN-LNS.

Γ spectroscopy of neutron-rich 95,96 Rb nuclei by the incomplete fusion reaction of 94 Kr on 7 Li Simone Bottoni University of Milan Mini Workshop 1°-

Low energy radioactive beams Carmen Angulo, CRC Louvain-la-Neuve, Belgium FINUPHY meetingLouvain-la-Neuve, Belgium3-4 May 2004 Recent highlights on nuclear.

Possibilities for Nuclear Physics at the Madrid Tandem Hans O. U. Fynbo Department of Physics and Astronomy University of Aarhus, Denmark Nuclear physics.

Structure and Reactions of Exotic Nuclei, February 2005 Francesco Cappuzzello N*  + 3n light nuclei via the ( 7 Li, 7 Be) reaction.

Higher Order Multipole Transition Effects in the Coulomb Dissociation Reactions of Halo Nuclei Dr. Rajesh Kharab Department of Physics, Kurukshetra University,

Using GEMINI to study multiplicity distributions of Light Particles Adil Bahalim Davidson College Summer REU 2005 – TAMU Cyclotron Institute.

Adil Bahalim Davidson College Dr. Joseph Natowitz (Advisor), Dr. Seweryn Kowalski (Mentor) Summer REU 2005 – TAMU Cyclotron Institute Reconstruction Main.

Proton and Two-Proton Decay of a High-Spin Isomer in 94 Ag Ernst ROECKL GSI Darmstadt and Warsaw University.

Study of the  -decay of 12 B Proposal to INTC 25th February 2002 SpokespersonH.O.U. Fynbo ContactpersonU.C. Bergmann.

Nuclear Level Densities of Residual Nuclei from evaporation of 64 Cu Moses B. Oginni Ohio University SNP2008 July 9, 2008.

Coupled-Channel Computation of Direct Neutron Capture and (d,p) reactions on Non- Spherical Nuclei Goran Arbanas (ORNL) Ian J. Thompson (LLNL) with Filomena.

Studying alpha-cluster structure using low-energy RI beam Nuclear astrophysics group (CRIB supporting members) in Center for Nuclear Study, Univ. of Tokyo:

Laura Francalanza Collaborazione EXOCHIM INFN Sezione di Catania - LNS.

The Inverse Kinematics Resonance Elastic Scattering Reaction of 10,11,12 Be+p Liu Yingdu( 刘应都 ) PHD candidate Advisor ： Wang Hongwei, Ma Yugang

Study of the Halo Nucleus 6 He using the 6 Li(   ) 6 He Reaction Derek Branford - Edinburgh University for the A2-Collaboration MAMI-B Mainz.

Neutron transfer reactions at large internuclear distances studied with the PRISMA spectrometer and the AGATA demonstrator.

Evolution of Nuclear Structure with the Increase of Neutron Richness – Orbital Crossing in Potassium Isotopes W. Królas, R. Broda, B. Fornal, T. Pawłat,

Molecular Charmonium. A new Spectroscopy? II Russian-Spanish Congress Particle and Nuclear Physics at all Scales and Cosmology F. Fernandez D.R. Entem,

1 Reaction Mechanisms with low energy RIBs: limits and perspectives Alessia Di Pietro INFN-Laboratori Nazionali del Sud.

Sep. 2003CNS Summer School Feb 分 => Talk なら 35 枚だが、 lecture だと少なめ？ 50 分 => Talk なら 35 枚だが、 lecture だと少なめ？

Breakup effects of weakly bound nuclei on the fusion reactions C.J. Lin, H.Q. Zhang, F. Yang, Z.H. Liu, X.K. Wu, P. Zhou, C.L. Zhang, G.L. Zhang, G.P.

Zagreb IP: Experimental nuclear physics inputs for thermonuclear runaway - NuPITheR Neven Soić, Ru đ er Bošković Institute, Zagreb, Croatia EuroGENESIS.

Coupling of (deformed) core and weakly bound neutron M. Kimura (Hokkaido Univ.)

Neutron enrichment of the neck-originated intermediate mass fragments in predictions of the QMD model I. Skwira-Chalot, T. Cap, K. Siwek-Wilczyńska, J.

Víctor M. Castillo-Vallejo 1,2, Virendra Gupta 1, Julián Félix 2 1 Cinvestav-IPN, Unidad Mérida 2 Instituto de Física, Universidad de Guanajuato 2 Instituto.

Some aspects of reaction mechanism study in collisions induced by Radioactive Beams Alessia Di Pietro.

RNB Cortina d’Ampezzo, July 3th – 7th 2006 Elisa Rapisarda Università degli studi di Catania E.Rapisarda for the Diproton collaboration 18 *

 2-proton emission  experimental set-up  decay results  2p emission from 45 Fe  perspectives Jérôme Giovinazzo – CEN Bordeaux-Gradignan – France PROCON’03.

W. Nazarewicz. Limit of stability for heavy nuclei Meitner & Frisch (1939): Nucleus is like liquid drop For Z>100: repulsive Coulomb force stronger than.

H.Sakurai Univ. of Tokyo Spectroscopy on light exotic nuclei.

N. Itagaki Yukawa Institute for Theoretical Physics, Kyoto University.

Cluster aspect of light unstable nuclei

NS08 MSU, June 3rd – 6th 2008 Elisa Rapisarda Università degli studi di Catania E.Rapisarda 18 2.

SEARCH FOR RARE CLUSTER CONFIGURATION IN 14 C NUCLEUS International Conference on Particle Physics and Astrophysics October 05 – 10, 2015 L.Yu. Korotkova,

Reaction studies with low-energy weakly-bound beams Alessia Di Pietro INFN-Laboratori Nazionali del Sud NN 2015Alessia Di Pietro,INFN-LNS.

Fusion of light halo nuclei

Exploring the 10 Li structure by the d( 9 Li,p) 10 Li transfer reaction Manuela Cavallaro INFN – LNS (Italy)

February 12-15,2003 PROCON 2003, Legnaro-Padova, Italy Jean Charles THOMAS University of Leuven / IKS, Belgium University of Bordeaux I / CENBG, France.

Multi-particle emission H.O.U. Fynbo Department of Physics, University ofAarhus, Denmark Symposium on Approaching the Drip-line for Unstable Nuclei Budapest.

Fragmentation of relativistic 9 Be and 14 N nuclei in nuclear track emulsion D. A. Artemenkov JINR, Dubna BECQUREL Collaboration web site:

Search for neutron-rich hypernuclei in FINUDA: preliminary results presented by M. Palomba 1 for the FINUDA Collaboration 1 INFN and Dipartimento di Fisica,

1 Recent Results on J/  Decays Shuangshi FANG Representing BES Collaboration Institute of High Energy Physics, CAS International Conference on QCD and.

First observation of the heavy hyper-hydrogen isotope 6  H XIV International Conference on Hadron Spectroscopy Elena Botta INFN – Sezione di Torino &

The experimental evidence of t+t configuration for 6 He School of Physics, Peking University G.L.Zhang Y.L.Ye.

g-ray spectroscopy of the sd-shell hypernuclei

Laboratori Nazionali del Sud Start EXCYT status and perspectives L. CELONA on behalf the EXCYT collaboration Istituto Nazionale di Fisica Nucleare-Laboratori.

Decay scheme studies using radiochemical methods R. Tripathi, P. K. Pujari Radiochemistry Division A. K. Mohanty Nuclear Physics Division Bhabha Atomic.

Exploring the alpha cluster structure of nuclei using the thick target inverse kinematics technique for multiple alpha decays. Marina Barbui June, 23 rd,

Jun Chen Department of Physics and Astronomy, McMaster University, Canada For the McMaster-NSCL and McMaster-CNS collaborations (5.945, 3+ : **) (5.914,

Production mechanism of neutron-rich nuclei in 238 U+ 238 U at near-barrier energy Kai Zhao (China Institute of Atomic Energy) Collaborators: Zhuxia Li,

Investigation of the freeze-out conﬁguration in the 197 Au Au reaction at 23 AMeV A.Sochocka Department of Physics, Astronomy and Applied Computer.

Exploring the alpha cluster structure of nuclei using the thick target inverse kinematics technique for multiple alpha decays. The 24 Mg case Marina Barbui.

Entry distributions for fragments produced in deep-inelastic collisions with stable and radioactive beams For the PARIS collaboration W. Królas, M. Kmiecik,

Nuclear structure through dynamics and correlations

FAST IN-MEDIUM FRAGMENTATION OF PROJECTILE NUCLEI

Yuliya Aksyutina for the LAND-R3B collaboration Motivation

Diagnostics of FRIBs beam transport line

L. Acosta1, M. A. G. Álvarez2, M. V. Andrés2, C. Angulo3, M. J. G

A new investigation of the Hoyle state in 12C via the

Searching for states analogous to the 12C Hoyle state in heavier nuclei using the thick target inverse kinematics technique. Marina Barbui 5/17/2018, Galveston,

Nilsson Model 50 years Low-Lying resonant states in the 9Be continuum

Status and perspectives of the LNS-FRIBS facility

Presentation transcript:

Nucleus Nucleus 2015 – Catania June 2015 Catania, June 25 th 2015 Univ. degli Studi di Napoli Federico II & INFN - Napoli Study of cluster structures in 10 Be and 16 C neutron-rich nuclei via break-up reactions Daniele Dell’Aquila Università degli studi di Napoli “Federico II” & INFN – Sezione di Napoli for the CHIMERA Collaboration Daniele Dell’Aquila Università degli studi di Napoli “Federico II” & INFN – Sezione di Napoli for the CHIMERA Collaboration

Table of Contents Univ. degli Studi di Napoli Federico II & INFN - Napoli Exotic structures in light nuclei Clustering in non self-conjugated nuclei; The state of art of 10 Be and 16 C nuclei structure; Experimental results 4 He- 6 He correlations: the 10 Be structure; 6 He- 10 Be correlations: the 16 C structure; Conclusions and future perspectives Exotic beam production and tagging at INFN-LNS: The FRIBs facility; The 4  CHIMERA multi-detector array; Helium break-up of self-conjugated nuclei as experimental test; Exotic structures in light nuclei

Very big variety of physical phenomena that need investigations Univ. degli Studi di Napoli Federico II & INFN - Napoli Exotic structures in light nuclei: an interesting scenario Complexity of nuclear force  dominant phenomena of nucleon-nucleon correlations which determine a spatial re-organization of the nucleons in bounded sub-units  the constituent clusters. 12 O 15 O 13 O 14 O 17 O 16 O 19 O 18 O 20 O 21 O 22 O 11 N 12 N 13 N 14 N 15 N 16 N 17 N 18 N 19 N 20 N 21 N 8C8C 9C9C 10 C 11 C 12 C 13 C 14 C 15 C 16 C 17 C 18 C 19 C 20 C 8B8B 9B9B 10 B 11 B 12 B 13 B 14 B 15 B 17 B 19 B 7 Be 8 Be 9 Be 10 Be 11 Be 12 Be 14 Be 6 Li 7 Li 8 Li 9 Li 11 Li 3 He 4 He 6 He 8 He 1H1H 2H2H 3H3H n H Be B Li He C core neutron halo 6 He, 11 Li, 11 Be core neutron skin 8 He,C    -cluster 8 Be    dilute gas 12 C 0 +, 16 O, 20 Ne(?)    linear chain 10 Be, C, 16 C(?),…

Ref. [1] Ref. [3] The 10 Be case Univ. degli Studi di Napoli Federico II & INFN - Napoli   AMD+VAP calculations  high deformation in GS  [1]  K  =0 + rotational band [2] High  -  cluster distance [3]  strong molecular structure  K  =0 + molecular band built on the MeV [4] state [1] Y. Kanada-En’yo, Phys. Rev. C 91, (2015) [4] M. Freer et al., Phys. Rev. Lett. 96, (2006) [3] Y. Kanada-En’yo, J. Phys. G 24, 1499 (1998) [2] D. Suzuki et al., Phys. Rev. C 87, (2013)

The 10 Be case Rotational band in dimeric structure  very interesting case Univ. degli Studi di Napoli Federico II & INFN - Napoli [6] M. Freer et al., Phys. Rev. C 63, (2001) [7] H.T. Fortune and B. Sherr, Phys. Rev. C 84, (2011) [8] N.I. Ashwood et al., Phys. Rev. C 68, (2004) [9] N. Curtis et al, Phys. Rev. C 64, (2001) [10] R. Wolsky et al., Phys. of Atom. Nucl. 73, 1405 (2010) [11] F. Kobayashi and Y. Kanada-en’yo, J. Phys.: Conf. Ser. 436, (2013) [12] S. Ahmed et al., Phys. Rev. C 69, (2004) [13] N. Curtis et al. Phys. Rev. C 73, (2006) [1] Y. Kanada-En’yo, Phys. Rev. C 91, (2015) [4] M. Freer et al., Phys. Rev. Lett. 96, (2006) [3] Y. Kanada-En’yo, J. Phys. G 24, 1499 (1998) [2] D. Suzuki et al., Phys. Rev. C 87, (2013) GS rotational band K  =0 + molecular band K  =1 - rotational band JJ(J+1)E x (MeV) [4] JJ(J+1)E x (MeV) [14]  11 [2] (?) JJ(J+1)E x (MeV) [14] H.G. Bohlen et al., Phys. Rev. C 75, (2007)   [5] N. Soic et al., Europhys Lett. 34, 7 (1996)

GS triangular linear chain possible cluster configurations  AMD calculations Ref. [1] Ref. [1] The 16 C case Experimental evidence still missing! Univ. degli Studi di Napoli Federico II & INFN - Napoli       [1] T. Baba, Y. Chiba and M. Kimura, Phys. Rev. C 90, (2014) molecular states predicted  possible rotational bands  6 He+ 10 Be powerful disintegration channel to explore this region  confirmations needed. [2] N. I. Ashwood et al., Phys. Rev. C 70, (2004) [3] P.J. Leask et al., Jour. Phys. G: Nucl. Part. Phys. 27, B9 (2001) no experimental evidence on 16 C molecular nature still provided [2,3]  very low statistic measurements

primary beam production target participant zone spectator zone exotic nucleus FRIBs LNS Univ. degli Studi di Napoli Federico II & INFN - Napoli Istituto Nazionale di Fisica Nucleare LNS - Laboratori Nazionali del Sud Tagging system [1] (particle by particle identification): MCP large area detector; [1] I. Lombardo et al., Nuc. Phys. B 215, 272 (2011). MCP detector

primary beam production target participant zone spectator zone exotic nucleus FRIBs LNS Univ. degli Studi di Napoli Federico II & INFN - Napoli Istituto Nazionale di Fisica Nucleare LNS - Laboratori Nazionali del Sud [1] I. Lombardo et al., Nuc. Phys. B 215, 272 (2011). DSSSD detector

primary beam production target participant zone spectator zone exotic nucleus FRIBs LNS Univ. degli Studi di Napoli Federico II & INFN - Napoli Istituto Nazionale di Fisica Nucleare LNS - Laboratori Nazionali del Sud [1] I. Lombardo et al., Nuc. Phys. B 215, 272 (2011). Complete cocktail beam identification

The CHIMERA 4  multi-detector  E-E identification  good isotopic separation Univ. degli Studi di Napoli Federico II & INFN - Napoli CHIMERA (Charged Heavy Ion Mass Energy Resolving Array) [1,2] [1] A. Pagano, Nucl. Phys. News 22, 25 (2012) [2] A. Pagano et al., Nucl. Phys. A 734, 504 (2004) Good 4 He – 6 He separation  beryllium line mainly dominated by 10 Be

Total fit Experimental data Check on self-conjugated nuclei Univ. degli Studi di Napoli Federico II & INFN - Napoli As a starting check  correlations between helium break-up fragments from self- conjugated nuclei 2  correlations  the 8 Be spectroscopy: Experimental data MonteCarlo simulation 8 Be gs (0 + ) 9 Be 2,43 MeV (5/2 - ) 9 Be 2,78 MeV (1/2 - ) 3,03 MeV (2 + ) MonteCarlo simulation  good agreement with the experimental data for the 91,8 keV peak ( 8 Be gs )  good consistency of the procedure. Possible contaminations of 9 Be neutron decay  ghost peaks? 3  correlations  the 12 C spectroscopy: 3 body correlations  good agreement with the literature  12 C Hoyle state.

Check on self-conjugated nuclei Univ. degli Studi di Napoli Federico II & INFN - Napoli As a starting check  correlations between helium break-up fragments from self- conjugated nuclei 2  correlations  the 8 Be spectroscopy: Experimental data MonteCarlo simulation 8 Be gs (0 + ) 9 Be 2,43 MeV (5/2 - ) 9 Be 2,78 MeV (1/2 - ) 3,03 MeV (2 + ) MonteCarlo simulation  good agreement with the experimental data for the 91,8 keV peak ( 8 Be gs )  good consistency of the procedure. Possible contaminations of 9 Be neutron decay  ghost peaks? 3  correlations  the 12 C spectroscopy: 3 body correlations  good agreement with the literature  12 C Hoyle state. Good test for the experimental technique

Possible new state in 10 Be Univ. degli Studi di Napoli Federico II & INFN - Napoli Experimental data Efficiency 1 H target Efficiency 12 C target Background (event mixing) Smooth efficiency for both the possible target nuclei ( 12 C and 1 H from the polyethylene CH 2 target used)  MonteCarlo simulation with exponential angular distribution in the anelastic scattering center of mass frame: Flat spourious background contribution  event mixing procedure.  fall-of factor 12°-16° Found bumps corresponding to excited states known in literature (vertical arrows)  interesting peak at about 13.5 MeV. Possible evidence of a new excited state at about 13.5 MeV not reported in literature MeV 6 He+ 4 He channel: the 10 Be structure

Univ. degli Studi di Napoli Federico II & INFN - Napoli Angular correlation analysis on 13.5 MeV state  high spin contributions  possible 6 + assignement  agreement with the recent R- matrix calculation in resonant elastic scattering 6 He+ 4 He experiment [1] Ref. [1] [1] G. Rogachev et al., J. Phys.: Conf. Ser. 569, (2014) MeV 6 He+ 4 He channel: the 10 Be structure

Continuation of the 10 Be molecular band Univ. degli Studi di Napoli Federico II & INFN - Napoli Angular correlation analysis on 13.5 MeV state  high spin contributions  possible 6 + assignement  agreement with the recent R- matrix calculation in resonant elastic scattering 6 He+ 4 He experiment [1] Possible 6 + further member of the K=0 + molecular band  low statistics  new experiments are needed. 6 He+ 4 He channel: the 10 Be structure GS rotational band K  =0 + molecular band K  =1 - rotational band

The 10 Be spectroscopy Univ. degli Studi di Napoli Federico II & INFN - Napoli As a final test  complete MonteCarlo simulation with the 13.5 MeV state (shadowed histogram)  nice agreement with the experimental data (black points) 13.5 MeV E x (MeV)JJ  tot  (MeV) [1] M. Freer et al., Phys. Rev. C 63, (2001) [2] S. Ahmed et al., Phys. Rev. C 69, (2004) [3] N. Curtis et al. Phys. Rev. C 73, (2006) [4] N. Curtis et al, Phys. Rev. C 64, (2001) [5] Brookhaven National Laboratory, National Nuclear Data Center [6] D.R. Tilley et al., Nucl. Phys. A 745, 155 (2004) [7] M. Freer et al., Phys. Rev. Lett. 96, (2006) [8] N. Soic et al., Europhys Lett. 34, 7 (1996) [9] G.V. Rogachev et al., J. Phys.: Conf. Ser. 569, (2014) 6 He+ 4 He channel: the 10 Be structure

6 He- 10 Be coincidences: the 16 C structure Low statistics results  20,6 MeV bump Univ. degli Studi di Napoli Federico II & INFN - Napoli Ref. [1]Ref. [2] 16 C 2 body disintegration  6 He+ 10 Be break-up channel  low statistics data. Enhancement at about 20.6 MeV  possible agreement with the previous low statistics measurement s [1][2]  more statistics required to confirm the suggestion. Experimental data Efficiency 1 H target Efficiency 12 C target Ref. [3] [3] T. Baba, Y. Chiba and M. Kimura, Phys. Rev. C 90, (2014) [1] N. I. Ashwood et al., Phys. Rev. C 70, (2004) [2] P.J. Leask et al., Jour. Phys. G: Nucl. Part. Phys. 27, B9 (2001)

Future perspectives: the CLIR LNS Univ. degli Studi di Napoli Federico II & INFN - Napoli CLIR (Clustering in Light Ion Reactions) February– June 2015  new investigation of cluster structures in nuclear reactions induced by FRIBs beams at INFN-LNS February 2015 FARCOS array [1] [1] G. Verde et al., J. Phys. Conf. Ser. 420, (2013) FARCOS array [2] coupled to CHIMERA device  improved energy and angular resolution  DSSSD+CsI detectors. more info in E.V. Pagano’s talk

Future perspectives: the CLIR LNS Data acquisition in progress… Univ. degli Studi di Napoli Federico II & INFN - Napoli FARCOS array [2] coupled to CHIMERA device  improved energy and angular resolution  DSSSD+CsI detectors. CLIR (Clustering in Light Ion Reactions) February– June 2015  new investigation of cluster structures in nuclear reactions induced by FRIBs beams at INFN-LNS On-line data!  E-E identification plot with FARCOS DSSSD (1500  m) vs CsI fast MeV/u

Conclusions and Perspectives Thank you for your attention. Univ. degli Studi di Napoli Federico II & INFN - Napoli We have performed a spectroscopic investigation of 10 Be and 16 C via cluster break- up reactions at intermediate energies at INFN-LNS. The cocktail beam was provided by the FRIBs facility  particle by particle identification  tagging system coupled to CHIMERA 4  multi-detector. 6 He- 4 He correlations  structure of 10 Be  new possible 6 + state at about 13.5 MeV excitation energy  possible agreement with a recent R-matrix calculation [1] (resonant elastic scattering data)  energetic compatibility with a 6 + further member of the 10 Be molecular band. 6 He- 10 Be correlations  structure of 16 C  very low statistics data  agreement with previous experiment enhancement at about 21 MeV excitation energy. [1] G. Rogachev et al., J. Phys.: Conf. Ser. 569, (2014) Future Perspectives: CLIR experiment INFN-LNS February 2015 – June 2015.

Further Slides Univ. degli Studi di Napoli Federico II & INFN - Napoli

Future Perspectives: the CLIR INFN-LNS FARCOS array [1] [2] G. Verde et al., J. Phys. Conf. Ser. 420, (2013) February 2015 Univ. degli Studi di Napoli Federico II & INFN - Napoli

Correlazioni a tre corpi e la struttura del 12 C Superior limit for EES decay < 2%!!! [1] O.S. Kirsebom et al., Phys. Rev. Lett. 108, (2012). [2] J. Manfredi et al., Phys. Rev. C 85, (2012). [3] Ad.R. Raduta et al., Phys. Lett. B 705, 65 (2011). [4] M. Freer et al., Phys. Rev. C 76, (2007). No evidence of Equal Energy Sharing (EES) for the Hoyle state Univ. degli Studi di Napoli Federico II & INFN - Napoli

16 C three body break-up: 6 He+ 6 He+ 4 He Very low statistics  no data in literature Univ. degli Studi di Napoli Federico II & INFN - Napoli 16 C 3 body disintegration  6 He+ 6 He+ 4 He break-up channel  low statistics data  no data present in literature. Experimental data Experimental data gated on Q gggg Possible state?

Tagging system layout Istituto Nazionale di Fisica Nucleare LNS - Laboratori Nazionali del Sud MCP DSSSD Univ. degli Studi di Napoli Federico II & INFN - Napoli

Q-value spectrum for 6 He+ 4 He decay Univ. degli Studi di Napoli Federico II & INFN - Napoli 12 C recoil 1 H recoil [1] M. Freer et al., Phys. Rev. C 63, (2001) Ref. [1]

Two body break-up kinematics Univ. degli Studi di Napoli Federico II & INFN - Napoli from ref. S. Marsh and W.D.M. Rae, Phys. Lett. B 153, 21 (1985)

Angular correlation analysis Univ. degli Studi di Napoli Federico II & INFN - Napoli

Experimental method: sequential break-up reactions A powerful investigation method Univ. degli Studi di Napoli Federico II & INFN - Napoli molecular structures suggested near the disintegration thresholds  Ikeda scheme  Basic Idea: projectile sequential break-up reactions to explore 10 Be and 16 C cluster structure.    10 Be 6 He 16 C 12 C Sequential break-up reaction: anelastic excitation of projectile nucleus above the particle emission threshold  sequential disintegration of projectile nucleus To obtain the spectroscopy of break-up nucleus  relative energy analisys: