Analytic continuation of single-particle resonance energy and wave function in relativistic mean field theory

S. S. Zhang; J. Meng; S. G. Zhou; G. C. Hillhouse

doi:10.1103/PhysRevC.70.034308

Analytic continuation of single-particle resonance energy and wave function in relativistic mean field theory

S. S. Zhang^*
, J. Meng
, S. G. Zhou
, G. C. Hillhouse

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

78 Scopus citations

Abstract

Single-particle resonant states in spherical nuclei are studied by an analytic continuation in the coupling constant (ACCC) method within the framework of the self-consistent relativistic mean field (RMF) theory. Taking the neutron resonant state vlg_9/2 in ⁶⁰Ca as an example, we examine the analyticity of the eigenvalue and eigenfunction for the Dirac equation with respect to the coupling constant by means of a Padé approximant of the second kind. The RMF-ACCC approach is then applied to ¹²²Zr and, for the first time, this approach is employed to investigate both the energies, widths, and wave functions for l ≠ 0 resonant states close to the continuum threshold. Predictions are also compared with corresponding results obtained from the scattering phase shift method.

Original language	English
Article number	034308
Pages (from-to)	343081-343088
Number of pages	8
Journal	Physical Review C - Nuclear Physics
Volume	70
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.70.034308
State	Published - Sep 2004
Externally published	Yes

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10.1103/PhysRevC.70.034308

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title = "Analytic continuation of single-particle resonance energy and wave function in relativistic mean field theory",

abstract = "Single-particle resonant states in spherical nuclei are studied by an analytic continuation in the coupling constant (ACCC) method within the framework of the self-consistent relativistic mean field (RMF) theory. Taking the neutron resonant state vlg9/2 in 60Ca as an example, we examine the analyticity of the eigenvalue and eigenfunction for the Dirac equation with respect to the coupling constant by means of a Pad{\'e} approximant of the second kind. The RMF-ACCC approach is then applied to 122Zr and, for the first time, this approach is employed to investigate both the energies, widths, and wave functions for l ≠ 0 resonant states close to the continuum threshold. Predictions are also compared with corresponding results obtained from the scattering phase shift method.",

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AU - Meng, J.

AU - Zhou, S. G.

AU - Hillhouse, G. C.

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N2 - Single-particle resonant states in spherical nuclei are studied by an analytic continuation in the coupling constant (ACCC) method within the framework of the self-consistent relativistic mean field (RMF) theory. Taking the neutron resonant state vlg9/2 in 60Ca as an example, we examine the analyticity of the eigenvalue and eigenfunction for the Dirac equation with respect to the coupling constant by means of a Padé approximant of the second kind. The RMF-ACCC approach is then applied to 122Zr and, for the first time, this approach is employed to investigate both the energies, widths, and wave functions for l ≠ 0 resonant states close to the continuum threshold. Predictions are also compared with corresponding results obtained from the scattering phase shift method.

AB - Single-particle resonant states in spherical nuclei are studied by an analytic continuation in the coupling constant (ACCC) method within the framework of the self-consistent relativistic mean field (RMF) theory. Taking the neutron resonant state vlg9/2 in 60Ca as an example, we examine the analyticity of the eigenvalue and eigenfunction for the Dirac equation with respect to the coupling constant by means of a Padé approximant of the second kind. The RMF-ACCC approach is then applied to 122Zr and, for the first time, this approach is employed to investigate both the energies, widths, and wave functions for l ≠ 0 resonant states close to the continuum threshold. Predictions are also compared with corresponding results obtained from the scattering phase shift method.

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JO - Physical Review C - Nuclear Physics

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IS - 3

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ER -

Analytic continuation of single-particle resonance energy and wave function in relativistic mean field theory

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