O. Scholten

Pion and photon induced reactions on the nucleon in a unitary model

O. Scholten, A.Y. Korchin, V. Pascalutsa, D. Van Neck
Physics Letters B
384 (1-4), 13-19
1996
A1
Published while none of the authors were employed at the CMM

Abstract 

We present a relativistic calculation of pion scattering, pion photoproduction and Compton scattering on the nucleon in the energy region of the Δ-resonance (upto 450 MeV photon lab energy), in a unified framework which obeys the unitarity constraint. It is found that the recent data on the cross section for nucleon Compton scattering determine accurately the parameters of the electromagnetic nucleon-Δ coupling. The pion-photoproduction partial-wave amplitudes, calculated with parameters fitted to the pion-nucleon and Compton scattering, agree well with the recent Arndt analysis.

Low-energy theorems for virtual nucleon-nucleon bremssrahlung; formalism and results

A.Y. Korchin, O. Scholten, D. Van Neck
Nuclear Physics A
602 (3-4), 423-448
1996
A1
Published while none of the authors were employed at the CMM

Abstract 

We present results for cross sections and response functions in virtual bremsstrahlung induced by nucleon-nucleon collisions NN → NN + e+e, based on two different low-energy theorems. The first low-energy theorem is a generalization of Low's theorem for real-photon bremsstrahlung. The second low-energy theorem was derived by Liou et al. for real photons, and is generalized here to the case of virtual photons. The two low-energy theorems are compared by calculating the cross section and response functions in the kinematical region of possible future experiments. We find that for most observables the amplitude up to leading order only in the photon energy does not provide a reliable description, and that the next order term is very important. The differences between the two low-energy theorems turn out to be sizeable for pp, but quite small for pn virtual bremsstrahlung. We also pay attention to the correct implementation of the generalized Pauli principle and crossing symmetry which the reaction amplitude must obey.

The U(5) → O(6) transition in the U(612) supersymmetry scheme and its application to the odd-A Rh isotopes

P. Van Isacker, J. Jolie, K. Heyde, M. Waroquier, J. Moreau, O. Scholten
Physics Letters B
149 (1-3), 26-30
1984
A1
Published while none of the authors were employed at the CMM

Abstract 

We discuss the U(5) → O(6) transition in the supersymmetry scheme of the interacting boson model. An application to the odd-A Rh isotopes is presented and includes a discussion of energy spectra, one-nucleon transfer properties and E2 transition rates.

M1 transition strengths in the neutron-proton interacting boson model

P. Van Isacker, K. Heyde, J. Jolie, M. Waroquier, J. Moreau, O. Scholten
Physics Letters B
144 (1-2), 1-4
1984
A1
Published while none of the authors were employed at the CMM

Abstract 

We study the U(5), SU(3), SU∗(3) and O(6) limits of the neutron-proton interacting boson model. A group theoretical interpretation of the Majorana term is discussed. The B(M1;01+→11+) values are calculated in the four limits and in differen t classes of translational nuclei.

Coherent Compton scattering on light nuclei in the Δ-resonance region

L. Van Daele, A.Y. Korchin, D. Van Neck, O. Scholten, M. Waroquier
Physical Review C
65 (1), 014613
2001
A1

Abstract 

Coherent Compton scattering on light nuclei in the Δ-resonance region is studied in the impulse approximation and is shown to be a sensitive probe of the in-medium properties of the Δ resonance. The elementary amplitude on a single nucleon is calculated from the unitary K-matrix approach developed previously. Modifications of the properties of the Δ resonance due to the nuclear medium are accounted for through the self-energy operator of the Δ, calculated from the one-pion loop. The dominant medium effects such as the Pauli blocking, mean-field modification of the nucleon and Δ masses, and particle-hole excitations in the pion propagator are consistently included in nuclear matter.

Reply to "Comment on "Radiative proton-deuteron capture in a gauge invariant relativistic model"

A.Y. Korchin, D. Van Neck, O. Scholten, M. Waroquier
Physical Review C
63 (1), 019802
2001
A1

Abstract 

In response to the preceding Comment we clarify the points raised and show that the arguments presented in the Comment are poorly substantiated.

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