D. Kameda scite author profile

The cross sections for single-neutron removal from the very neutron-rich nucleus 31Ne on Pb and C targets have been measured at 230 MeV/nucleon using the RIBF facility at RIKEN. The deduced large Coulomb breakup cross section of 540(70) mb is indicative of a soft E1 excitation. Comparison with direct-breakup model calculations suggests that the valence neutron of 31Ne occupies a low-l orbital (most probably 2p(3/2)) with a small separation energy (S(n) approximately < 0.8 MeV), instead of being predominantly in the 1f(7/2) orbital as expected from the conventional shell ordering. These findings suggest that 31Ne is the heaviest halo system known.

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Interaction cross section study of the two-neutron halo nucleus 22 C

Togano

et al. 2016

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BigRIPS separator and ZeroDegree spectrometer at RIKEN RI Beam Factory

et al. 2012

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The BigRIPS in-flight separator, which became operational in March 2007 at the RI Beam Factory (RIBF) at RIKEN Nishina Center, has been used to produce a variety of rare-isotope (RI) beams by using in-flight fission as well as projectile fragmentation. Its major features are large ion-optical acceptances and two-stage structure. Excellent performance in particle identification is also an important feature. Efficient RI-beam production based on the in-flight scheme has been made possible by these features of the BigRIPS separator, allowing us to greatly expand the accessible region of exotic nuclei. An RI-beam delivery line following the BigRIPS separator is designed to work as a forward spectrometer, called ZeroDegree. As a major experimental device at RIBF, the ZeroDegree spectrometer has been used for a variety of reaction studies with RI beams. In this paper, we present an overview of the BigRIPS separator and the ZeroDegree spectrometer, emphasizing the capability and potential of the new-generation RI beam facility, RIBF.

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Candidate Resonant Tetraneutron State Populated by theHe4(He8
Kisamori¹,
Shimoura²,
Miya³
et al. 2016
Phys. Rev. Lett.
163
9
127
4
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A candidate resonant tetraneutron state is found in the missing-mass spectrum obtained in the double-charge-exchange reaction ^{4}He(^{8}He,^{8}Be) at 186 MeV/u. The energy of the state is 0.83±0.65(stat)±1.25(syst) MeV above the threshold of four-neutron decay with a significance level of 4.9σ. Utilizing the large positive Q value of the (^{8}He,^{8}Be) reaction, an almost recoilless condition of the four-neutron system was achieved so as to obtain a weakly interacting four-neutron system efficiently.

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Identification and separation of radioactive isotope beams by the BigRIPS separator at the RIKEN RI Beam Factory

Fukuda

Kubo

Ohnishi

et al. 2013

Nuclear Instruments and Methods in Physics Research Section B:

208

113

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We have developed a method for achieving excellent resolving power in in-flight particle identification of radioactive isotope (RI) beams at the BigRIPS fragment separator at the RIKEN Nishina Center RI Beam Factory (RIBF). In the BigRIPS separator, RI beams are identified by their atomic number Z and mass-to-charge ratio A/Q which are deduced from the measurements of time of flight (TOF), magnetic rigidity (B) and energy loss (E), and delivered as tagged RI beams to a variety of experiments including secondary reaction measurements. High A/Q resolution is an essential requirement for this scheme, because the charge state Q of RI beams has to be identified at RIBF energies such as 200-300 MeV/nucleon. By precisely determining the B and TOF values, we have achieved relative A/Q resolution as good as 0.034% (root-mean-square value). The achieved A/Q resolution is high enough to clearly identify the charge state Q in the Z versus A/Q particle identification plot, where fully-stripped and hydrogen-like peaks are very closely located. The precise Bdetermination is achieved by refined particle trajectory reconstruction, while a slew correction is performed to precisely determine the TOF value. Furthermore background events are thoroughly removed to improve reliability of the particle identification. In the present paper we present the details of the particle identification scheme in the BigRIPS separator. The isotope separation in the BigRIPS separator is also briefly introduced.

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D. Kameda

Halo Structure of the Island of Inversion NucleusNe31

Interaction cross section study of the two-neutron halo nucleus 22 C

BigRIPS separator and ZeroDegree spectrometer at RIKEN RI Beam Factory

Candidate Resonant Tetraneutron State Populated by theHe4(He8
Kisamori¹,
Shimoura²,
Miya³
et al. 2016
Phys. Rev. Lett.
163
9
127
4
View full text Add to dashboard Cite

Identification and separation of radioactive isotope beams by the BigRIPS separator at the RIKEN RI Beam Factory

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D. Kameda

Halo Structure of the Island of Inversion NucleusNe31

Interaction cross section study of the two-neutron halo nucleus 22 C

BigRIPS separator and ZeroDegree spectrometer at RIKEN RI Beam Factory

Candidate Resonant Tetraneutron State Populated by theHe4(He8Kisamori1, Shimoura2, Miya3 et al. 2016Phys. Rev. Lett.16391274View full textAdd to dashboardCite

Identification and separation of radioactive isotope beams by the BigRIPS separator at the RIKEN RI Beam Factory

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Product

Resources

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Candidate Resonant Tetraneutron State Populated by theHe4(He8
Kisamori¹,
Shimoura²,
Miya³
et al. 2016
Phys. Rev. Lett.
163
9
127
4
View full text Add to dashboard Cite