Effective field theory predicts a controllable crossover between dimer and trimer branches in a driven three-component Fermi gas.
Efimov, Energy levels arising from resonant two-body forces in a three-body system, Physics Letters B33, 563 (1970)
3 Pith papers cite this work. Polarity classification is still indexing.
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Resonant two-magnon interactions in long-range spin chains yield Efimov three-magnon states for alpha in (2, 2.89) and semi-super Efimov states at alpha=2, confirmed by numerical solution of the Skorniakov-Ter-Martirosian equation.
A two-channel model demonstrates stabilization of three-body resonances into bound states in the continuum via parameter tuning, shown in 1D mass-imbalanced and 3D Efimov systems with magnetic field control.
citing papers explorer
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A study of the dimer-trimer crossover in a driven three-component Fermi gas
Effective field theory predicts a controllable crossover between dimer and trimer branches in a driven three-component Fermi gas.
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Universal Bound States in Long-range Spin Chains with an Impurity
Resonant two-magnon interactions in long-range spin chains yield Efimov three-magnon states for alpha in (2, 2.89) and semi-super Efimov states at alpha=2, confirmed by numerical solution of the Skorniakov-Ter-Martirosian equation.
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Stabilization of three-body resonances to bound states in a continuum
A two-channel model demonstrates stabilization of three-body resonances into bound states in the continuum via parameter tuning, shown in 1D mass-imbalanced and 3D Efimov systems with magnetic field control.