Low energy reactions with radioactive ions at REX-ISOLDE—the 9Li+2H case

Jeppesen, H.; Ames, F.; Bergh, P. Van den; Bergmann, U. C.; Bollen, G.; Borge, María José García; Cederkäll, J.; Duppen, P. Van; Emhofer, S.; Forstner, O.; Fraile, L. M.; Fynbo, H. O. U.; Gómez‐Camacho, J.; Habs, D.; Hahn, R. von; Huber, G.; Huyse, M.; Johansson, H.; Jonson, B.; Kester, O.; Liljeby, L.; Meister, M.; Moro, A. M.; Nilsson, T.; Nyman, G.; Oinonen, M.; Pantea, M.; Podlech, Holger; Ratzinger, U.; Reisinger, K.; Rensfelt, K. G.; Repnow, R.; Riisager, K.; Richter, A.; Rudolph, K.; Scheit, H.; Schempp, A.; Schmidt, P. C.; Schrieder, G.; Schwalm, D.; Sieber, T.; Simon, H.; Tengblad, O.; Tengborn, Elisabeth; Turrion, M.; Weissmann, L.; Wenander, F.; Wolf, B.

doi:10.1016/j.nuclphysa.2004.11.013

Cited by 19 publications

(16 citation statements)

References 18 publications

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“…The full excitation energy spectrum for all detected protons are shown in the bottom of Fig. 5 in [26]. It exhibits a rather large component below zero excitation energy.…”

Section: Calculations and Comparison With Experimental Resultsmentioning

confidence: 97%

“…The entrance channel optical potential, U [d-9 Li] , was taken from the fit of the elastic data performed in [26]. For the core-core interaction, U [p-9 Li] , we used the proton optical potential of Powell et al [30].…”

Section: Calculations and Comparison With Experimental Resultsmentioning

confidence: 99%

“…The DSSSD telescope covered laboratory angles from 18 • to 80 • . For a more elaborate description of the experiment, setup and analysis method see [25][26][27].…”

Section: Methodsmentioning

confidence: 99%

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Study of 10Li via the 9Li(2H, p) reaction at REX-ISOLDE

Jeppesen¹,

Moro²,

Bergmann³

et al. 2006

Physics Letters B

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The 9 Li + 2 H reaction has been investigated at 2.36 MeV/u at the REX-ISOLDE facility. In this Letter we focus on the 10 Li + p channel which potentially holds spectroscopic information on the unbound nucleus 10 Li. The experimental excitation energy spectrum and angular distribution are compared with CCBA calculations. These calculations clearly support the existence of a low-lying (s) virtual state, with a (negative) scattering length of the order a s ∼ 13-24 fm and a p 1/2 resonance with an energy of E r 0.38 MeV and a width of Γ 0.2 MeV.

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“…The full excitation energy spectrum for all detected protons are shown in the bottom of Fig. 5 in [26]. It exhibits a rather large component below zero excitation energy.…”

Section: Calculations and Comparison With Experimental Resultsmentioning

confidence: 97%

Section: Calculations and Comparison With Experimental Resultsmentioning

confidence: 99%

See 1 more Smart Citation

Study of 10Li via the 9Li(2H, p) reaction at REX-ISOLDE

Jeppesen¹,

Moro²,

Bergmann³

et al. 2006

Physics Letters B

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“…To study few-nucleon transfer reactions using radioactive ion beams in inverse kinematics, two detection set-ups were developed. The first one mainly used for transfer reactions in the light mass range consisted out of one or more [21] Si double-sided strip detectors with a specially developed [22] thin dead layer. The second set-up, called T-REX (the T stands for transfer), is mainly used for transfer reactions using heavier mass beams and combines particle detection with gamma detection [23,24].…”

Section: The Isolde Facilitymentioning

confidence: 99%

“…Nuclear structure studies are planned to characterise cluster structure in 10 Be by transfer reaction. Characterisation of resonant states in the proton-rich nucleus 21 Al will be determined by resonance elastic and inelastic scattering using the active target MAYA in order to check isospin conservation beyond the drip line. For middle mass nuclei, the validity of a shell model description around 78 Ni will be studied as well as shape coexistence in the region A = 70-80 will be determined with high precision.…”

Section: The Hie-isolde Projectmentioning

confidence: 99%

Highlights of the ISOLDE facility and the HIE-ISOLDE Project

Borge

2016

EPJ Web of Conferences

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The ISOLDE Radioactive Beam Facility is the dedicated CERN installation for the production and acceleration of radioactive nuclei far from stability. Exotic nuclei of most chemical elements are available for the study of nuclear structure, nuclear astrophysics, fundamental symmetries and atomic physics, as well as for applications in condensed-matter and life sciences. Since more than a decade it offers the largest variety of post-accelerated radioactive beams in the world today. In order to broaden the scientific opportunities beyond the reach of the present facility, the on-going HIE-ISOLDE (High Intensity and Energy) project will provide major improvements in energy range, beam intensity and beam quality. Post-accelerated beams will be available already this year boosting the beam energy of the current REX LINAC to 4.3 MeV/u reaching 5.5 MeV/u next spring. In this new energy regime the Coulomb excitation cross sections are strongly increased with respect to the previous energy of bearly 3 MeV/u and many transfer reaction channels will open. The second stage of the energy upgrade will allow energies of the beam up to 10 MeV/u for the worst scenario of A/q = 4.5. The funds are already secured and it is expected to be completed in 2017. In this contribution the present status of the ISOLDE facility will be discussed, some highlights will be briefly described to illustrate the advances of the facility. The HIE-ISOLDE project will be described together with a panorama of the physics cases to be addressed in the near future with emphasis in the day-one experiment to be done this year. 201, EPJ Web of Conferences

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Recent highlights from ISOLDE@CERN

Frailea¹

The 4th International Conference on Exotic Nuclei and Atomic Masses

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Low energy reactions with radioactive ions at REX-ISOLDE—the 9Li+2H case

Cited by 19 publications

References 18 publications

Study of 10Li via the 9Li(2H, p) reaction at REX-ISOLDE

Study of 10Li via the 9Li(2H, p) reaction at REX-ISOLDE

Highlights of the ISOLDE facility and the HIE-ISOLDE Project

Recent highlights from ISOLDE@CERN

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