Nature 449, 1022-1024 (25 October 2007) | doi:10.1038/nature06213; Received 6 June 2007; Accepted 31 August 2007

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

T. Baumann1, A. M. Amthor1,2, D. Bazin1, B. A. Brown1,2, C. M. Folden III1, A. Gade1,2, T. N. Ginter1, M. Hausmann1, M. Matos caron1, D. J. Morrissey1,3, M. Portillo1, A. Schiller1, B. M. Sherrill1,2, A. Stolz1, O. B. Tarasov1,4 & M. Thoennessen1,2

  1. National Superconducting Cyclotron Laboratory,
  2. Department of Physics and Astronomy,
  3. Department of Chemistry, Michigan State University, East Lansing, Michigan 48824, USA
  4. Flerov Laboratory of Nuclear Reactions, JINR, 141980 Dubna, Moscow region, Russian Federation

Correspondence to: T. Baumann1 Correspondence and requests for materials should be addressed to T.B. (Email: baumann@nscl.msu.edu).

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 elements1, 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 nuclei2. In the past, several attempts to observe 40Mg were unsuccessful3, 4; 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 neutrons5, 6.


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