Observation of Thermal Deuteron-Deuteron Fusion in Ion Tracks

K. Czerski, R. Dubey, A. Kowalska, G. Haridas Das, M. Kaczmarski, N. Targosz-Sleczka, M. Valat
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Abstract

A direct observation of the deuteron-deuteron (DD) fusion reaction at thermal meV energies, although theoretically possible, is not succeeded up to now. The electron screening effect that reduces the repulsive Coulomb barrier between reacting nuclei in metallic environments by several hundreds of eV and is additionally increased by crystal lattice defects in the hosting material, leads to strongly enhanced cross sections which means that this effect might be studied in laboratories. Here we present results of the 2H(d,p)3H reaction measurements performed on a ZrD2 target down to the lowest deuteron energy in the center mass system of 675 eV, using an ultra-high vacuum accelerator system, recently upgraded to achieve high beam currents at very low energies. The experimental thick target yield, decreasing over seven orders of magnitude for lowering beam energies, could be well described by the electron screening energy of 340 eV, which is much higher than the value of about 100 eV for a defect free material. At the energies below 2.5 keV, a constant plateau yield value could be observed. As indicated by significantly increased energies of emitted protons, this effect can be associated with the thermal DD fusion. A theoretical model explains the experimental observations by creation of ion tracks induced in the target by projectiles, and a high phonon density which locally increases temperature above the melting point. The nuclear reaction rate taking into account recently observed DD threshold resonance agrees very well with the experimental data.
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离子轨道中的热氘核-氘核聚变观测
在热meV能量下直接观测氘核(DD)聚变反应虽然在理论上是可能的,但至今尚未成功。电子屏蔽效应会将金属环境中反应原子核之间的库仑斥力势垒降低数百 eV,此外,寄主材料的晶格缺陷也会增加这种效应,从而导致截面的强烈增强,这意味着可以在实验室中对这种效应进行最佳研究。在这里,我们展示了在 ZrD2 靶上进行的 2H(d,p)3H 反应测量结果,该靶的中心质量系统最低氘核能量为 675 eV,使用的是最近升级的超高真空加速器系统,以便在极低能量下实现高束流。在能量低于 2.5 keV 时,可以观察到一个恒定的高原产率值。由于发射质子的能量明显增加,这种效应可能与热 DD 核聚变有关。理论模型通过射弹在目标中诱发的离子轨道的产生,以及高声子密度使温度升高到熔点以上来解释实验观察结果。考虑到最近观测到的 DD 阈值共振的核反应率与实验数据非常吻合。
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