Interacting boson model
The interacting boson model (IBM) is a model in nuclear physics in which nucleons (protons or neutrons) pair up, essentially acting as a single particle with boson properties, with integral spin of either 2 (d-boson) or 0 (s-boson). They correspond to a quintuplet and singlet, i.e. 6 states.
It is sometimes known as the Interacting boson approximation (IBA).<ref name=Pfeifer1998/>Template:Rp
The IBM1/IBM-I model treats both types of nucleons the same and considers only pairs of nucleons coupled to total angular momentum 0 and 2, called respectively, s and d bosons.
The IBM2/IBM-II model treats protons and neutrons separately.
Both models are restricted to nuclei with even numbers of protons and neutrons.<ref name=Pfeifer1998/>Template:Rp
The model can be used to predict vibrational and rotational modes of non-spherical nuclei.<ref name=Kratz>Template:Cite conference</ref>
HistoryEdit
This model was invented by Akito Arima and Francesco Iachello in 1974.<ref name=Pfeifer1998>Template:Cite book</ref>Template:Rp while working at the Kernfysisch Versneller Instituut(KVI) in Groningen, Netherlands. KVI is now property of Universitair Medisch Centrum Groningen (https://umcgresearch.org/).
See alsoEdit
ReferencesEdit
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