Ch. Elster scite author profile

In the modern description of nuclear forces based on chiral effective field theory, four-nucleon operators with unknown coupling constants appear. These couplings can be fixed by a fit to the low partial waves of neutron-proton scattering. We show that the so determined numerical values can be understood on the basis of phenomenological one-boson-exchange models. We also extract these values from various modern high accuracy nucleon-nucleon potentials and demonstrate their consistency and remarkable agreement with the values in the chiral effective field theory approach. This paves the way for estimating the low-energy constants of operators with more nucleon fields and/or external probes.

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Three-body scattering at intermediate energies

Liu

2005

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The Faddeev equation for three-body scattering at arbitrary energies is formulated in momentum space and directly solved in terms of momentum vectors without employing a partial wave decomposition. In its simplest form the Faddeev equation for identical bosons, which we are using, is a three-dimensional integral equation in five variables, magnitudes of relative momenta and angles. This equation is solved through Padé summation. Based on a Malfliet-Tjon-type potential, the numerical feasibility and stability of the algorithm for solving the Faddeev equation is demonstrated. Special attention is given to the selection of independent variables and the treatment of three-body break-up singularities with a spline based method. The elastic differential cross section, semi-exclusive d(N,N ′ ) cross sections and total cross sections of both elastic and breakup processes in the intermediate energy range up to about 1 GeV are calculated and the convergence of the multiple scattering series is investigated in every case. In general a truncation in the first or second order in the two-body t-matrix is quite insufficient.

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Nucleon-nucleon scattering in a three dimensional approach

2000

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The nucleon-nucleon ͑NN͒ t matrix is calculated directly as function of two vector momenta for different realistic NN potentials. To facilitate this a formalism is developed for solving the two-nucleon LippmannSchwinger equation in momentum space without employing a partial wave decomposition. The total spin is treated in a helicity representation. Two different realistic NN interactions, one defined in momentum space and one in coordinate space, are presented in a form suited for this formulation. The angular and momentum dependence of the full amplitude is studied and displayed. A partial wave decomposition of the full amplitude it carried out to compare the presented results with the well-known phase shifts provided by those interactions.PACS number͑s͒: 21.45.ϩv, 13.75.Cs

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Subtractive renormalization of theNNinteraction in chiral effective theory up to next-to-next-to-leading order:Swaves

2009

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Subtractive renormalization of theNNscattering amplitude at leading order in chiral effective theory

2008

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The leading-order nucleon-nucleon (NN) potential derived from chiral perturbation theory consists of one-pion exchange plus short-distance contact interactions. We show that in the 1 S0 and 3 S1-3 D1 channels renormalization of the Lippmann-Schwinger equation for this potential can be achieved by performing one subtraction. This subtraction requires as its only input knowledge of the NN scattering lengths. This procedure leads to a set of integral equations for the partial-wave NN t-matrix which give cutoff-independent results for the corresponding NN phase shifts. This reformulation of the NN scattering equation offers practical advantages, because only observable quantities appear in the integral equation. The scattering equation may then be analytically continued to negative energies, where information on bound-state energies and wave functions can be extracted.

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Two-nucleon systems in three dimensions

et al. 2010

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A recently developed formulation for treating two-and three-nucleon bound states in a threedimensional formulation based on spin-momentum operators is extended to nucleon-nucleon scattering. Here the nucleon-nucleon t-matrix is represented by six spin-momentum operators accompanied by six scalar functions of momentum vectors. We present the formulation and provide numerical examples for the deuteron and nucleon-nucleon scattering observables. A comparison to results from a standard partial wave decomposition establishes the reliability of this new formulation. 21.45.Bc

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Incoherentηphotoproduction from the deuteron near threshold

et al. 2002

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Very recent data for the reaction ␥d→np, namely, total cross sections, angular and momentum spectra, are analyzed within a model that includes contributions from the impulse approximation and next-order corrections due to the np and N interactions in the final state. Comparison between the calculations and the new data indicate sizable contributions from the np and N final-state interactions. Some systematic discrepancies between the calculations and the data are also found.

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Ch. Elster

The bonn meson-exchange model for the nucleon—nucleon interaction

Resonance saturation for four-nucleon operators

Three-body scattering at intermediate energies

Nucleon-nucleon scattering in a three dimensional approach

Subtractive renormalization of theNNinteraction in chiral effective theory up to next-to-next-to-leading order:Swaves

Subtractive renormalization of theNNscattering amplitude at leading order in chiral effective theory

Two-nucleon systems in three dimensions

Incoherentηphotoproduction from the deuteron near threshold

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