Bloch oscillations emerge in continuum interacting quantum gases via strong interactions and are captured by generalized hydrodynamics in the Yang-Gaudin model, with finite-density renormalization from bound states.
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A non-Bloch framework is established for nonlinear eigenvalue problems to reproduce open-boundary spectra and reveal unique phenomena plus topological correspondence.
Grid-structured beams suppress self-focusing via inter-beamlet nonlinear interactions and allow higher total power transmission than single beams when lattice spacing is optimized.
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Generalized Hydrodynamics of Bloch Oscillations in the Absence of a Lattice
Bloch oscillations emerge in continuum interacting quantum gases via strong interactions and are captured by generalized hydrodynamics in the Yang-Gaudin model, with finite-density renormalization from bound states.
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Non-Bloch band theory of nonlinear eigenvalue problems
A non-Bloch framework is established for nonlinear eigenvalue problems to reproduce open-boundary spectra and reveal unique phenomena plus topological correspondence.
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Self-focusing of high-intensity beams with grid structures
Grid-structured beams suppress self-focusing via inter-beamlet nonlinear interactions and allow higher total power transmission than single beams when lattice spacing is optimized.