Cross Sections for the<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mrow><mml:msup><mml:mrow><mml:mi mathvariant="normal">Li</mml:mi></mml:mrow><mml:mrow><mml:mn>7</mml:mn></mml:mrow></mml:msup></mml:mrow><mml:mo>(</mml:mo><mml:mi>n</mml:mi><mml:mo>,</mml:mo><mml:mi> </mml:mi><mml:mi>γ</mml:mi><mml:mo>)</mml:mo><mml:mrow><mml:msup><mml:mrow><mml:mi mathvariant="normal">Li</mml:mi></mml:mrow><mml:mrow><mml:mn>8</mml:mn></mml:mrow></mml:msup></mml:mrow></mml:math>Reaction

Imhof, W. L.; Johnson, R.G.; Vaughn, F.J.; Walt, M.

doi:10.1103/physrev.114.1037

Cited by 70 publications

(109 citation statements)

References 14 publications

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“…Of course there were old data which were consistent with the theoretical prediction: these [12] were 59G11.8 and 39.5G7.9 mb. In these circumstances, our result [3] was 39.8G6.0 mb: the puzzle was solved.…”

Section: Conditions Of Neutron Capture Nucleosynthesessupporting

confidence: 68%

“…Finally, the capture cross sections of the objective nucleus were derived from the capture yields, the neutron data obtained with the 6 Li-glass detector, and the standard capture cross sections of 197 Au. 12 C, there were two experimental data previously: 200G400 mb at 30 keV by Gibbons et al [5] and an upper limit of 14 mb at 30 keV by Macklin [6]. On the other hand, an extrapolation with the 1/v law [7] and the capture cross section [8] at the thermal energy (0.025 eV) gave about 3 mb at 30 keV, where v is the velocity of incident neutron in the center of mass system.…”

Section: Conditions Of Neutron Capture Nucleosynthesesmentioning

confidence: 99%

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Neutron capture nucleosynthesis in the universe

Igashira

Ohsaki

2004

Science and Technology of Advanced Materials

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First, the nucleosynthesis in the universe was reviewed. In particular, the neutron capture nucleosyntheses in the Big-Bang and the s-and r-processes were reviewed in detail. It was pointed out that keV-neutron capture cross sections were important for the study on the neutron capture nucleosynthesis. Second, our measurement of keV-neutron capture cross sections was explained briefly, and the results on 7 Li, 12 C, and 16 O were shown and compared with previous experimental values and the predicted values from the 1/v law and the thermal neutron capture cross sections. The results at 30 keV on 12 C and 16 O were much larger than the 1/v predictions, while the result at 30 keV on 7 Li was in good agreement with the 1/v prediction. The large values for 12 C and 16 O were ascribed to the non-resonant p-wave neutron capture from the analysis of observed capture g-ray spectra and the neutron energy dependence of derived partial capture cross sections. As for 7 Li, the good agreement was ascribed to the peculiarity of bound states of its residual nucleus, which strongly suppresses the non-resonant p-wave neutron capture. Finally, it was shown that the non-resonant p-wave neutron capture is predominant in the neutron capture nucleosynthesis of light nuclei in the universe. q

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Section: Conditions Of Neutron Capture Nucleosynthesessupporting

confidence: 68%

Section: Conditions Of Neutron Capture Nucleosynthesesmentioning

confidence: 99%

Neutron capture nucleosynthesis in the universe

Igashira

Ohsaki

2004

Science and Technology of Advanced Materials

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“…energies (up to 1 MeV) [20][21][22][23]. Only the 3 + state at 2.25 MeV (0.22 MeV above the neutron decay threshold) has been observed.…”

Section: New States In Light Of Previous Experimental Datamentioning

confidence: 97%

Structure of8B from elastic and inelastic7Be+pscattering

et al. 2013

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Background: Detailed experimental knowledge of the level structure of light weakly bound nuclei is necessary to guide the development of new theoretical approaches that combine nuclear structure with reaction dynamics.Purpose: The resonant structure of 8 B is studied in this work.Method: Excitation functions for elastic and inelastic 7 Be+p scattering were measured using a 7 Be rare isotope beam. Excitation energies ranging between 1.6 and 3.4 MeV were investigated.An R-matrix analysis of the excitation functions was performed. Conclusions: Identification of the 0 + , 2 + , 1 + states that were predicted by some models at relatively low energy but never observed experimentally is an important step toward understanding the structure of 8 B. Their identification was aided by having both elastic and inelastic scattering data. Direct comparison of the cross sections and phase shifts predicted by the TDCSM and ab initio No Core Shell Model coupled with the resonating group method is of particular interest and provides a good test for these theoretical approaches.

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“…Measurements by Wiescher et al (1989) had indicated that the cross section for this reaction was a factor of 2 smaller than reported by Imhof et al (1959), thereby reducing the rate of heavy element synthesis in any primordial r process. However, a number of more recent measurements (Blackmon et al, 1996, and references therein) are in good agreement with the Imhof (1959) results supporting the reaction rate used in the calculation of heavy element production by Malaney and Fowler (1987). It is perhaps interesting to note that the three-cluster generator coordinate method calculations of Descouvemont and Baye (1994), which are consistent with the Imhof/Blackmon 7 Li(n,␥) 8 Li results, predict S 17 (0)у24 eV b for the isospin mirror, 7 Be(p,␥) 8 B reaction.…”

Section: Hydrogen Burning In the Pp Chain And Cn Cyclementioning

confidence: 99%

Synthesis of the elements in stars: forty years of progress

et al. 1997

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Forty years ago Burbidge, Burbidge, Fowler, and Hoyle combined what we would now call fragmentary evidence from nuclear physics, stellar evolution and the abundances of elements and isotopes in the solar system as well as a few stars into a synthesis of remarkable ingenuity. Their review provided a foundation for forty years of research in all of the aspects of low energy nuclear experiments and theory, stellar modeling over a wide range of mass and composition, and abundance studies of many hundreds of stars, many of which have shown distinct evidence of the processes suggested by B 2 FH. In this review we summarize progress in each of these fields with emphasis on the most recent developments. [S0034-6861(97)

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Cross Sections for theLi7(n, γ)Li8Reaction

Cited by 70 publications

References 14 publications

Neutron capture nucleosynthesis in the universe

Neutron capture nucleosynthesis in the universe

Structure of8B from elastic and inelastic7Be+pscattering

Synthesis of the elements in stars: forty years of progress

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