Resonance strengths in the 
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Gyürky, Gy.; Halász, Z.; Kiss, G. G.; Szücs, T.; Csík, A.; Török, Zsófia; Huszánk, Róbert; Kohan, Mojtaba Gilzad; Wagner, Louis K.; Fülöp, Zs.

doi:10.1103/physrevc.100.015805

Cited by 14 publications

(11 citation statements)

References 28 publications

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“…The strengths of two strong narrow resonances in 14 N(p,γ) 15 O have already been measured and the results published [11]. The lower one at E p = 278 keV is especially important as it serves as a normalization point in several experiments.…”

Section: The Activation Methodsmentioning

confidence: 95%

“…For example, the most uncertain input parameter for alpha-induced reactions is the alpha-nucleus 15 O from the literature and from the present work. For the references see the bibliography in [11]. optical potential.…”

Section: Experiments Related To the Astrophysical P-processmentioning

confidence: 99%

“…Strengths of the two measured resonances in 14 N(p,γ)15 O from the literature and from the present work. For the references see the bibliography in[11].…”

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confidence: 99%

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Stable beam experiments in wide energy ranges serving low energy nuclear astrophysics

Gyürky

2019

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In experimental nuclear astrophysics it is common knowledge that reaction cross sections must be measured in the astrophysically relevant, low energy ranges or at least as close to them as possible. In most of the cases, however, it is impossible to reach such low energies. The reactions must therefore be studied at higher energies and the cross sections must be extrapolated to lower ones. In this paper the importance of cross section measurements in wide energy ranges are emphasized and a few examples are shown from the areas of hydrogen burning processes and heavy element nucleosynthesis.

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Section: The Activation Methodsmentioning

confidence: 95%

Section: Experiments Related To the Astrophysical P-processmentioning

confidence: 99%

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Stable beam experiments in wide energy ranges serving low energy nuclear astrophysics

Gyürky

2019

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“…The 14 N(p,γ 1 γ 2 ) 15 O reaction has been studied extensively by the LUNA collaboration [30; 31]. At the resonant energy E r = 259 keV [32] (in the centre of mass system; Γ = 0.99 keV [22]) this reaction mainly proceeds through three exit channels with known branching ratios (BR), each producing two prompt γ rays in cascade: 1) 765 + 6792 keV (BR=23.0%), 2) 1384 + 6172 keV (BR=58.3%) and 3) 2375 + 5181 keV (BR=16.9%) [33]. In order to measure the photo-peak efficiency (z, E γ ) of Ge1 as a function of γ-ray emission position z along the beam axis (with z = 0 corresponding to the centre of the target chamber) and for all γ-ray energies above, we used the following procedure.…”

Section: Gamma-ray Detection Efficiencymentioning

confidence: 99%

Setup commissioning for an improved measurement of the D(p,$$\gamma $$)$$^3$$He cross section at Big Bang Nucleosynthesis energies

et al. 2020

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Among the reactions involved in the production and destruction of deuterium during Big Bang Nucleosynthesis, the deuterium-burning D(p,γ) 3 He reaction has the largest uncertainty and limits the precision of theoretical estimates of primordial deuterium abundance. Here we report the results of a careful commissioning of the experimental setup used to measure the cross-section of the D(p,γ) 3 He reaction at the Laboratory for Underground Nuclear Astrophysics of the Gran Sasso Laboratory (Italy). The commissioning was aimed at minimising all sources of systematic uncertainty in the measured cross sections. The overall systematic error achieved (< 3%) will enable improved predictions of BBN deuterium abundance.

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“…The 14 N(p,γ 1 γ 2 ) 15 O reaction has been studied extensively by the LUNA collaboration Formicola et al, 2004]. At the resonant energy E r = 259 keV [Gyürky et al, 2019] (in the centre of mass system; Γ = 0.99 keV [Daigle et al, 2016]) this reaction mainly proceeds through three exit channels with known branching ratios (BR), each producing two prompt γ rays in cascade: 1) 765 + 6792 keV (BR=23.0%), 2) 1384 + 6172 keV (BR=58.3%) and 3) 2375 + 5181 keV (BR=16.9%) [Marta et al, 2011]. In order to measure the photo-peak efficiency (z, E γ ) of Ge1 as a function of γ-ray emission position z along the beam axis (with z = 0 corresponding to the centre of the target chamber) and for all γ-ray energies above, we used the following procedure.…”

Section: Gamma-ray Detection Efficiencymentioning

confidence: 99%

Setup commissioning for an improved measurement of the D(p,gamma)3He cross section at Big Bang Nucleosynthesis energies

Mossa,

Stöckel,

Cavanna

et al. 2020

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Resonance strengths in the N14 ( p,γ)O15

Cited by 14 publications

References 28 publications

Stable beam experiments in wide energy ranges serving low energy nuclear astrophysics

Stable beam experiments in wide energy ranges serving low energy nuclear astrophysics

Setup commissioning for an improved measurement of the D(p,$$\gamma $$)$$^3$$He cross section at Big Bang Nucleosynthesis energies

Setup commissioning for an improved measurement of the D(p,gamma)3He cross section at Big Bang Nucleosynthesis energies

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