Threshold scattering of the η-meson off light nuclei

Rakityansky, S. A.; Sofianos, S. A.; Sandhas, W.; Belyaev, V.B.

doi:10.1016/0370-2693(95)01057-w

Cited by 23 publications

(18 citation statements)

References 27 publications

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“…As it should be, the AGS and FSA results converge to each other when the target particles become much heavier than the incident one (see Table 1.) .In Table 2 we compare the present AGS calculations with our previous results obtained by means of the FRA [11]. In Table 3 we present A ηd calculated with α = 3.316 fm −1 for various values of a ηN given in the literature.…”

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confidence: 75%

“…Another reason comes from the differences among the employed approximations some of which might be detrimental in view of the resonant character of the ηN dynamics and the delicacy of the quasi-bound state problem. As was shown in Ref.[10] this problem cannot be adequately addressed by a meson-nucleus optical model or any low-order perturbation theory.Among the approximate approaches the few-body dynamics of the η-nucleus systems was most explicitly treated in our previous calculations [11][12][13][14][15] based on the finite-rank approximation (FRA) of the nuclear Hamiltonians. The shortcoming of these calculations is the neglect of excitations of the nuclear ground states.…”

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confidence: 99%

“…Among the approximate approaches the few-body dynamics of the η-nucleus systems was most explicitly treated in our previous calculations [11][12][13][14][15] based on the finite-rank approximation (FRA) of the nuclear Hamiltonians. The shortcoming of these calculations is the neglect of excitations of the nuclear ground states.…”

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Faddeev-type calculation ofηdthreshold scattering

et al. 1998

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The scattering length for the η-meson collision with deuteron is calculated on the basis of rigorous few-body equations (AGS) for various ηN input. The results obtained strongly support the existence of a resonance or quasi-bound state close to the ηd threshold.PACS numbers: 25.80.-e, 21.45.+v, 25.10.+s The production of η mesons and their collisions with nuclei have been studied experimentally and theoretically with increasing interest during the last years. To a large extent this is motivated by the fundamental questions of charge-symmetry breaking and the break-down of the Okubo-Zweig-Iizuka rule. Another relevant question concerns the possible formation of η-nucleus quasi-bound states.In many respects the η-meson is similar to the π 0 -meson despite it's being four times heavier. Both are neutral and spinless, they have almost the same lifetime, ∼ 10 −18 sec, and are the only mesons which have a high probability of pure radiative decay, that is, their quarks can annihilate into on-shell photons. However, when being involved in nuclear reactions they behave rather differently. The S 11 -resonance N * (1535), for instance, is formed in both πN and ηN systems, but at different collision energies,Thus, due to the large mass of the η-meson (547.45 MeV), this resonance is very close to the ηN-threshold. Furthermore it is very broad, with Γ ≈ 150 MeV, covering the whole low energy ηN region. As a result the interaction of nucleons with η-mesons in this region, 1 where the S-wave interaction dominates, is much stronger than with pions.After its creation the N * (1535)-resonance decays into ηN and πN channels with equally high probabilities [1]which indicates that the ηN and πN interactions are to be treated by a coupled channel analysis. The resulting ηN interaction, obtained in this way, turned out to be attractive [2]. This raises the question whether the attraction is strong enough to support η-nucleus quasi-bound states. Let us recall in this context that, because of their short lifetime, η-mesons can only be observed in final states of certain nuclear reactions. Within nuclei they are considered to undergo multiple absorption and production processes via the S 11 resonance, with a final transition into pions. Such quasi-bound states therefore would be of considerable interest for studying η-meson properties in more detail.For the calculation of these states various model treatments were employed, among them the optical potential method [3][4][5][6], the Green's function method [7], and the modified multiple scattering theory [8]. Calculations, based on the exact Alt-Grassberger-Sandhas (AGS) equations [9], for the ηd system were also made in Ref. [10] in early nineties.The predictions concerning the possibility of η-mesic nucleus formation are very diverse. One obvious reason for such a diversity is the poor knowledge of the ηN forces. Another reason comes from the differences among the employed approximations some of which might be detrimental in view of the resonant character of the ηN dynamics and...

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Faddeev-type calculation ofηdthreshold scattering

et al. 1998

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“…Here especially the isoscalar component is significant because of its close link to the term of the nucleon [4]. On a more phenomenological level the ηN scattering length is interesting because the magnitude of its real part is directly linked with speculations about the existence of η-mesonic hadronic bound states such as η 3 He [5][6][7][8][9][10][11] or η 4 He [12]. Unfortunately, a direct determination of the scattering length is only feasible in a few cases.…”

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Extraction of scattering lengths from final-state interactions

2005

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A recently proposed method, based on dispersion theory, that allows the scattering length of a hadronic two-body system to be extracted from corresponding final-state interactions is generalized to the situation where the Coulomb interaction is present. The steps required in a concrete practical application are discussed in detail. In addition a thorough examination of the accuracy of the proposed method is presented and a comparison is made with results achieved with other methods such as the Jost-function approach based on the effective-range approximation. Deficiencies of the latter method are pointed out. The reliability of the dispersion theory method for also extracting the effective range is investigated.

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“…Subsequently, the formation of light η -mesic nuclei including 3 H, 3 He, 4 He was discussed in the framework of dierent models ( [32], [37]). Experimental search for such states was for example done via the study of the threshold behavior of η -production reactions in hadron and photon induced reactions.…”

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η-PHOTOPRODUCTION OFF ³He: SEARCH FOR η-MESIC NUCLEI

Pheron

2011

Int. J. Mod. Phys. A

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Photoproduction of η-mesons off 3 He has been studied via the η → 2γ and η → 3π0 decay modes at the tagged photon beam of the Mainz MAMI accelerator using the combined 4π Crystal Ball/TAPS calorimeter. The main motivation for this experiment was the search for η-mesic nuclei. A possible signature for such states is a threshold enhancement of coherent η-photoproduction similar to what has been observed in hadronic induced reactions at COSY.8

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Threshold scattering of the η-meson off light nuclei

Cited by 23 publications

References 27 publications

Faddeev-type calculation ofηdthreshold scattering

Faddeev-type calculation ofηdthreshold scattering

Extraction of scattering lengths from final-state interactions

η-PHOTOPRODUCTION OFF ³He: SEARCH FOR η-MESIC NUCLEI

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Threshold scattering of the η-meson off light nuclei

Cited by 23 publications

References 27 publications

Faddeev-type calculation ofηdthreshold scattering

Faddeev-type calculation ofηdthreshold scattering

Extraction of scattering lengths from final-state interactions

η-PHOTOPRODUCTION OFF 3He: SEARCH FOR η-MESIC NUCLEI

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η-PHOTOPRODUCTION OFF ³He: SEARCH FOR η-MESIC NUCLEI