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A high-efficiency gas target setup for underground experiments, and redetermination of the branching ratio of the 189.5 keV mathbf{²²Ne(p,γ)²³Na} resonance

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arxiv 1802.04164 v1 pith:4A3TXKZE submitted 2018-02-12 nucl-ex astro-ph.IM

A high-efficiency gas target setup for underground experiments, and redetermination of the branching ratio of the 189.5 keV mathbf{²²Ne(p,γ)²³Na} resonance

classification nucl-ex astro-ph.IM
keywords gammabeenresonancebeamintensitysetuptargetunderground
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The experimental study of nuclear reactions of astrophysical interest is greatly facilitated by a low-background, high-luminosity setup. The Laboratory for Underground Nuclear Astrophysics (LUNA) 400 kV accelerator offers ultra-low cosmic-ray induced background due to its location deep underground in the Gran Sasso National Laboratory (INFN-LNGS), Italy, and high intensity, 250-500 $\mu$A, proton and $\alpha$ ion beams. In order to fully exploit these features, a high-purity, recirculating gas target system for isotopically enriched gases is coupled to a high-efficiency, six-fold optically segmented bismuth germanate (BGO) $\gamma$-ray detector. The beam intensity is measured with a beam calorimeter with constant temperature gradient. Pressure and temperature measurements have been carried out at several positions along the beam path, and the resultant gas density profile has been determined. Calibrated $\gamma$-intensity standards and the well-known $E_p$ = 278 keV $\mathrm{^{14}N(p,\gamma)^{15}O}$ resonance were used to determine the $\gamma$-ray detection efficiency and to validate the simulation of the target and detector setup. As an example, the recently measured resonance at $E_p$ = 189.5 keV in the $^{22}$Ne(p,$\gamma$)$^{23}$Na reaction has been investigated with high statistics, and the $\gamma$-decay branching ratios of the resonance have been determined.

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