Exact analytic state evolution and energy spectrum are derived for solvable bosonic models, with eigenstates expressed via continued fractions and Jacobi matrix principal minors.
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A Monte Carlo algorithm is introduced to evaluate the Lehmann representation of the finite-temperature single-particle Green's function in the Lieb-Liniger model.
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Exact State Evolution and Energy Spectrum in Solvable Bosonic Models
Exact analytic state evolution and energy spectrum are derived for solvable bosonic models, with eigenstates expressed via continued fractions and Jacobi matrix principal minors.
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Finite temperature single-particle Green's function in the Lieb-Liniger model
A Monte Carlo algorithm is introduced to evaluate the Lehmann representation of the finite-temperature single-particle Green's function in the Lieb-Liniger model.