Fermion self-trapping in the optical geometry of Einstein-Dirac solitons
classification
🌀 gr-qc
hep-thquant-ph
keywords
fermionsgeometrylocalizedopticalself-trappinganalyzeangularbecome
read the original abstract
We analyze gravitationally localized states of multiple fermions with high angular momenta, in the formalism introduced by Finster, Smoller, and Yau [Phys Rev. D 59, 104020 (1999)]. We show that the resulting soliton-like wave functions can be naturally interpreted in terms of a form of self-trapping, where the fermions become localized on shells the locations of which correspond to those of `bulges' in the optical geometry created by their own energy density.
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