O. Tarasov scite author profile

A fundamental question in nuclear physics is what combinations of neutrons and protons can make up a nucleus. Many hundreds of exotic neutron-rich isotopes have never been observed; the limit of how many neutrons a given number of protons can bind is unknown for all but the lightest elements, owing to the delicate interplay between single particle and collective quantum effects in the nucleus. This limit, known as the neutron drip line, provides a benchmark for models of the atomic nucleus. Here we report a significant advance in the determination of this limit: the discovery of two new neutron-rich isotopes--40Mg and 42Al--that are predicted to be drip-line nuclei. In the past, several attempts to observe 40Mg were unsuccessful; moreover, the observation of 42Al provides an experimental indication that the neutron drip line may be located further towards heavier isotopes in this mass region than is currently believed. In stable nuclei, attractive pairing forces enhance the stability of isotopes with even numbers of protons and neutrons. In contrast, the present work shows that nuclei at the drip line gain stability from an unpaired proton, which narrows the shell gaps and provides the opportunity to bind many more neutrons.

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Shape Coexistence and theN=28Shell Closure Far from Stability

Sarazin

et al. 2000

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The masses of 31 neutron-rich nuclei in the range A = 29-47 have been measured. The precision of 19 masses has been significantly improved and 12 masses were measured for the first time. The neutron-rich Cl, S, and P isotopes are seen to exhibit a change in shell structure around N = 28. Comparison with shell model and relativistic mean field calculations demonstrate that the observed effects arise from deformed prolate ground state configurations associated with shape coexistence. Evidence for shape coexistence is provided by the observation of an isomer in 43S.

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N2868i40: Magicity versus Superfluidity

Sorlin¹,

Leenhardt²,

Donzaud³

et al. 2002

Phys. Rev. Lett.

249

131

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The neutron-rich (66,68)Ni have been produced at GANIL via interactions of a 65.9A MeV 70Zn beam with a 58Ni target. Their reduced transition probability B(E2;0(+)(1)-->2+) has been measured for the first time by Coulomb excitation in a (208)Pb target at intermediate energy. The B(E2) value for (68)Ni(40) is unexpectedly small. An analysis in terms of large scale shell model calculations stresses the importance of proton core excitations to reproduce the B(E2) values and indicates the erosion of the N = 40 harmonic-oscillator subshell by neutron-pair scattering.

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Projectile fragmentation ofCa40,Ca48,
Mocko
¹
,
Tsang
²
,
Andronenko
³

et al. 2006
Phys. Rev. C
109
6
98
1
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We have measured fragment cross-sections of projectile fragmentation reactions using primary beams of 40 Ca, 48 Ca, 58 Ni, and 64 Ni at 140 MeV/nucleon on 9 Be and 181 Ta targets. The cross-sections were obtained by integrating the momentum distributions of isotopes with Z 5 measured in the A1900 fragment separator. We compare the extracted cross-sections to the predictions of the empirical parametrization of fragmentation cross-sections (EPAX).

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Discovery of Ca60 and Implications For the Stability of Ca70
Tarasov¹,
Ahn²,
Bazin³
et al. 2018
Phys. Rev. Lett.
85
15
84
2
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The discovery of the important neutron-rich nucleus _{20}^{60}Ca_{40} and seven others near the limits of nuclear stability is reported from the fragmentation of a 345 MeV/u ^{70}Zn projectile beam on ^{9}Be targets at the radioactive ion-beam factory of the RIKEN Nishina Center. The produced fragments were analyzed and unambiguously identified using the BigRIPS two-stage in-flight separator. The eight new neutron-rich nuclei discovered, ^{47}P, ^{49}S, ^{52}Cl, ^{54}Ar, ^{57}K, ^{59,60}Ca, and ^{62}Sc, are the most neutron-rich isotopes of the respective elements. In addition, one event consistent with ^{59}K was registered. The results are compared with the drip lines predicted by a variety of mass models and it is found that the models in best agreement with the observed limits of existence in the explored region tend to predict the even-mass Ca isotopes to be bound out to at least ^{70}Ca.

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Development of the program LISE: application to fusion–evaporation

Tarasov

Bazin

2003

Nuclear Instruments and Methods in Physics Research Section B:

120

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The program LISE: a simulation of fragment separators

Bazin

Tarasov

Lewitowicz

et al. 2002

Nuclear Instruments and Methods in Physics Research Section A:

121

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O. Tarasov

LISE++: Radioactive beam production with in-flight separators

Discovery of 40Mg and 42Al suggests neutron drip-line slant towards heavier isotopes

Shape Coexistence and theN=28Shell Closure Far from Stability

N2868i40: Magicity versus Superfluidity

Projectile fragmentation ofCa40,Ca48,
Mocko
¹
,
Tsang
²
,
Andronenko
³

et al. 2006
Phys. Rev. C
109
6
98
1
View full text Add to dashboard Cite

Discovery of Ca60 and Implications For the Stability of Ca70
Tarasov¹,
Ahn²,
Bazin³
et al. 2018
Phys. Rev. Lett.
85
15
84
2
View full text Add to dashboard Cite

Development of the program LISE: application to fusion–evaporation

The program LISE: a simulation of fragment separators

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Product

Resources

About

O. Tarasov

LISE++: Radioactive beam production with in-flight separators

Discovery of 40Mg and 42Al suggests neutron drip-line slant towards heavier isotopes

Shape Coexistence and theN=28Shell Closure Far from Stability

N2868i40: Magicity versus Superfluidity

Projectile fragmentation ofCa40,Ca48,Mocko1, Tsang2, Andronenko3 et al. 2006Phys. Rev. C1096981View full textAdd to dashboardCite

Discovery of Ca60 and Implications For the Stability of Ca70Tarasov1, Ahn2, Bazin3 et al. 2018Phys. Rev. Lett.8515842View full textAdd to dashboardCite

Development of the program LISE: application to fusion–evaporation

The program LISE: a simulation of fragment separators

Contact Info

Product

Resources

About

Projectile fragmentation ofCa40,Ca48,
Mocko
¹
,
Tsang
²
,
Andronenko
³

et al. 2006
Phys. Rev. C
109
6
98
1
View full text Add to dashboard Cite

Discovery of Ca60 and Implications For the Stability of Ca70
Tarasov¹,
Ahn²,
Bazin³
et al. 2018
Phys. Rev. Lett.
85
15
84
2
View full text Add to dashboard Cite