EPJ Web Conf.
Volume 232, 2020Heavy Ion Accelerator Symposium (HIAS 2019)
|Number of page(s)||4|
|Published online||06 April 2020|
Structure of superheavy hydrogen 7H
IGFAE – U. de Santiago de Compostela, E–15782 Santiago de Compostela, Spain.
2 GANIL, CEA/DSM – CNRS/IN2P3, BP 55027, F–14076 Caen Cedex 5, France.
3 U. de Sevilla, E–41080 Sevilla, Spain.
4 Department of Physics, University of Regina, Regina, SK S4S 0A2, Canada.
5 KVI–CART, U. of Groningen, NL–9747 AA, Groningen, The Netherlands.
6 Instituut voor Kernen Stralingsfysica, KU Leuven, B–3001 Leuven, Belgium.
7 LPC de Caen, U. de Caen Basse–Normandie – ENSICAEN – CNRS/IN2P3, F–14050 Caen Cedex, France.
8 Yukawa Institute for Theoretical Physics, Kyoto University, 6068502 Kyoto, Japan.
9 IPN Orsay, U. Paris Sud, IN2P3 – CNRS, F–91406 Orsay Cedex, France.
Published online: 6 April 2020
The properties of nuclei with extreme neutron–to–proton ratios reveal the limitations of state-ofthe-art nuclear models and are key to understand nuclear forces. 7H, with six neutrons and a single proton, is the nuclear system with the most unbalanced neutron–to–proton ratio ever known, but its sheer existence and properties are still a challenge for experimental efforts and theoretical models. We report here the first measurement of the basic characteristics and structure of the ground state of 7H; they depict a system with a triton core surrounded by an extended four-neutron halo, built by neutron pairing, that decays through a unique four–neutron emission with a relatively long half-life. These properties are a prime example of new phenomena occurring in almost pure-neutron nuclear matter, beyond the binding limits of the nuclear landscape, that are yet to be described within our current models.
© The Authors, published by EDP Sciences, 2020
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