Experimental signatures of a new channel of the DD reaction at very-low energy

arXiv - PHYS - Nuclear Experiment Pub Date : 2024-08-14 DOI:arxiv-2408.07567

R. Dubey, K. Czerski, Gokul Das H, A. Kowalska, N. Targosz-Sleczka, M. Kaczmarski, M. Valat

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Abstract

The discovery of a new, strong reaction channel of the deuteron-deuteron fusion at very low energies might have major consequences for the construction of a future clean and efficient energy source. Following the first theoretical and experimental indications for the existence of the deuteron-deuteron threshold resonance in the $^4$He nucleus and its dominant decay by the internal $e^+e^-$ pair creation, we present here an extensive experimental study confirming emission of high-energy electrons and positrons. A simultaneous use of Si charged particle detectors of different thicknesses and large volume NaI(Tl) and HPGe detectors has allowed for the first time to determine the branching ratio between emitted protons, neutrons and $e^+e^-$ pairs for deuteron energies down to 5 keV. The high-energy positrons could be unambiguously detected by their bremsstrahlung spectra and annihilation radiation, supported by the Monte Carlo Geant4 simulations. The theoretical calculations, based on a destructive interference between the threshold resonance and the known broad resonance in $^4$He, agree very well with experimentally observed increase of branching ratios for lowering projectile energies. The partial width of the threshold resonance for the $e^+e^-$ pair creation should be at least 10 times larger than that of the proton channel.

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超低能量下 DD 反应新通道的实验特征

在极低能量下发现新的氘核-氘核聚变强反应通道，可能会对未来清洁高效能源的建设产生重大影响。继首次从理论和实验上证明 $^4$He 核中存在氘核-氘核阈值共振及其通过内部 $e^+e^-$ 成对产生的主要衰变之后，我们在这里介绍一项广泛的实验研究，证实了高能电子和正电子的发射。同时使用不同厚度的硅带电粒子探测器以及大体积的 NaI（Tl）和 HPGe 探测器，首次确定了氘核能量低至 5 keV 时发射的质子、中子和 $e^+e^-$ 对之间的分支比。在蒙特卡洛 Geant4 模拟的支持下，高能正电子可以通过其轫致辐射光谱和湮灭辐射被明确地探测到。理论计算基于阈值共振与 $^4$He 中已知的宽共振之间的破坏性干扰，与实验观察到的降低射弹能量时分支比的增加非常吻合。e^+e^-$对创造的阈值共振的部分宽度应该至少比质子通道的宽度大10倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Nuclear Experiment

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