Bayesian three-body modeling of 22C reveals it is bound by less than 0.35 MeV with s-wave dominance and highlights the need for final-state interactions in dipole strength calculations, with ~50% uncertainties.
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The paper provides an overview of symmetry-protected nodal-line structures in semimetals and their signatures in spectroscopy and transport measurements.
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Uncertainty quantified three-body model applied to the two-neutron halo $^{22}$C
Bayesian three-body modeling of 22C reveals it is bound by less than 0.35 MeV with s-wave dominance and highlights the need for final-state interactions in dipole strength calculations, with ~50% uncertainties.
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Contemporary Insights into Electronic Structure and Microscopic Transport in Nodal-Line Semimetals
The paper provides an overview of symmetry-protected nodal-line structures in semimetals and their signatures in spectroscopy and transport measurements.