A class of analytic perturbations for one-body Schrödinger Hamiltonians

Aguilar, José Edgar Madriz; Combes, Jean‐Michel

doi:10.1007/bf01877510

Cited by 1,169 publications

(843 citation statements)

References 8 publications

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“…The ABC theorem 29) shows that the eigenvalues E λ (θ) are located on a straight line in the complex plane, rotated by an angle 2θ. Resonant states are not affected by this angle and correspond to stable eigenvalues…”

Section: The Complex Scaling Methodsmentioning

confidence: 99%

Comparative Study of Three-Body Models for Continuum States

Descouvemont

Pinilla

Baye

2012

Prog. Theor. Phys. Suppl.

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We discuss properties of three-body continuum states in the hyperspherical formalism. The associated coupled-channel system is solved on a Lagrange basis, and is complemented by the R-matrix theory for the treatment of scattering states. Three-body α + n + n phase shifts are determined under various conditions. Two approximations of the continuum are considered: the complex scaling and the pseudostate methods. Both are briefly outlined, and compared with the R-matrix approach for the dipole-strength distribution of 6 He. A fair agreement is obtained between the three methods. We also discuss the influence of the α + n and n + n interactions, as well as the effect of the Pauli principle. Some differences are obtained, but all calculations predict a broad 1 − resonance near 1 MeV. §1.

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Section: The Complex Scaling Methodsmentioning

confidence: 99%

Comparative Study of Three-Body Models for Continuum States

Descouvemont

Pinilla

Baye

2012

Prog. Theor. Phys. Suppl.

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“…The resonance computation uses complex scaling (see [10] for the origins of the method, and [11] for recent mathematical treatments and references), which associates to H a family H α of "scaled" operator. Each H α can be discretized and its eigenvalues computed, as described in [1].…”

Section: Numerical Resultsmentioning

confidence: 99%

Quantum resonances in chaotic scattering

Lin

Zworski

2002

Chemical Physics Letters

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This letter summarizes numerical results from [1] which show that in quantum systems with chaotic classical dynamics, the number of scattering reso-Here, K E denotes the subset of the classical energy surface {H = E} which stays bounded for all time under the flow of H and D (K E ) denotes its fractal dimension. Since the number of bound states in a quantum system with n degrees of freedom scales likeh −n , this suggests that the quan-represents the effective number of degrees of freedom in chaotic scattering problems.

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“…The complex scaling method [27] amounts to rotation of the hyperradius (ρ → ρe iθ ), while the hyperangles remain unchanged [24]. As soon as the rotation angle θ is larger than the argument of any given resonance, then this resonance together with the bound states is obtained as an exponentially decreasing solution to the coupled set of radial equations (3).…”

Section: The Three-body Methodsmentioning

confidence: 99%

Three-body structure of the low-lying 17Ne-states

2004

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The Borromean nucleus 17 Ne ( 15 O+p + p) is investigated by using the hyperspheric adiabatic expansion for a a three-body system. The measured size of 15 O and the low-lying resonances of 16 F ( 15 O+p) are first used as constraints to determine both central and spin-dependent two-body interactions. Then, the ground state structure of 17 Ne is found to be an almost equal mixture of s 2 and d 2 proton-15 O relative states, the two lowest excited states have about 80% of sd-mixed components, and for the next two excited three-body states the proton-15 O relative s-states do not contribute. The spatial extension is as in ordinary nuclei. The widths of the resonances are estimated by the WKB transmission through the adiabatic potentials and found in agreement with the established experimental limits. We compare with experimental information and previous works.

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A class of analytic perturbations for one-body Schrödinger Hamiltonians

Cited by 1,169 publications

References 8 publications

Comparative Study of Three-Body Models for Continuum States

Comparative Study of Three-Body Models for Continuum States

Quantum resonances in chaotic scattering

Three-body structure of the low-lying 17Ne-states

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