Add to ORKGWe improve the complex scaling method (CSM) to obtain the virtual states, which were previously challenging in the conventional CSM. Our approach solves the Schr\"odinger equation in the momentum space as an eigenvalue problem by choosing the flexible contours. It proves to be highly effective in identifying the poles across the different Riemann sheets in the multi-channel scatterings. It is more straightforward and efficient than searching for the zeros of the Fredholm determinant of the Lippmann-Schwinger equation using the root-finding algorithms. This advancement significantly extends the capabilities of the CSM in accurately characterizing the resonances and virtual states in quantum systems.Comment: 12 pages, 14 figures, 2 table
Recently the Many-Interacting-Worlds (MIW) approach to a quantum theory without wave functions was p...
We discuss in general terms pole trajectories of resonances coupling to a continuum channel as some ...
Quantum–mechanical multiple-well oscillators exhibit curious complex eigenvalues that resemble reson...
Background: In coupled-channels models the poles of the scattering S matrix are located on different...
<p>An accurate description of both bound and resonance states is desirable in the study of molecules...
Characterizing quasibound states from coupled-channel scattering calculations can be a laborious tas...
The Efimov phenomenon manifests itself as an emergent discrete scaling symmetry in the quantum three...
We highlight Hermiticity issues in bound-state equations whose kernels are subject to a highly asymm...
We apply a model-independent reconstruction method to experimental data in order to identify complex...
The goal of this Letter is to calculate bound, resonant and scattering states in the coupled-channel...
AbstractThe goal of this Letter is to calculate bound, resonant and scattering states in the coupled...
In contrast to bound states, electronically metastable states or resonances still represent a major ...
We discuss some general features of the effective range expansion, the content of its parameters wit...
We construct a tridiagonal matrix representation for the three dimensions Dirac-Coulomb Hamiltonian ...
We apply our method of complex scaling, valid for a general class of potentials, in a search for nuc...
Recently the Many-Interacting-Worlds (MIW) approach to a quantum theory without wave functions was p...
We discuss in general terms pole trajectories of resonances coupling to a continuum channel as some ...
Quantum–mechanical multiple-well oscillators exhibit curious complex eigenvalues that resemble reson...
Background: In coupled-channels models the poles of the scattering S matrix are located on different...
<p>An accurate description of both bound and resonance states is desirable in the study of molecules...
Characterizing quasibound states from coupled-channel scattering calculations can be a laborious tas...
The Efimov phenomenon manifests itself as an emergent discrete scaling symmetry in the quantum three...
We highlight Hermiticity issues in bound-state equations whose kernels are subject to a highly asymm...
We apply a model-independent reconstruction method to experimental data in order to identify complex...
The goal of this Letter is to calculate bound, resonant and scattering states in the coupled-channel...
AbstractThe goal of this Letter is to calculate bound, resonant and scattering states in the coupled...
In contrast to bound states, electronically metastable states or resonances still represent a major ...
We discuss some general features of the effective range expansion, the content of its parameters wit...
We construct a tridiagonal matrix representation for the three dimensions Dirac-Coulomb Hamiltonian ...
We apply our method of complex scaling, valid for a general class of potentials, in a search for nuc...
Recently the Many-Interacting-Worlds (MIW) approach to a quantum theory without wave functions was p...
We discuss in general terms pole trajectories of resonances coupling to a continuum channel as some ...
Quantum–mechanical multiple-well oscillators exhibit curious complex eigenvalues that resemble reson...