Li_2MnCl_4$单晶体：红光发射中子闪烁体的新候选材料

arXiv - PHYS - Instrumentation and Detectors Pub Date : 2024-08-29 DOI:arxiv-2408.16178

Vojtech Vanecek, Robert Kral, Katerina Krehlikova, Romana Kuverkova, Vladimir Babin, Petra Zemenova, Jan Rohlicek, Zuzana Malkova, Terezia Jurkovicova, Martin Nikl

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引用次数: 0

摘要

提出了一种新型红色发射闪烁体 Li$_2$MnCl$_4$ 作为热中子探测的候选材料。它具有锂含量高、密度低、有效原子序数低和在红-近红外区域发射等特点。这些特点使其成为在严酷环境下（如核电站解体）进行长距离中子探测的理想候选物质。在塔纳贝-苏加诺图的范围内对其吸收光谱进行了深入研究。深入研究了未掺杂 Li$_2$MnCl$_4$ 的发光机制。为了提高闪烁效率，我们尝试掺入了 Eu$^{2+}$ 和 Ce$^{3+}$。我们在 Eu$^{2+}$ 和 Ce$^{3+}$ 掺杂的 Li$_2$MnCl$_4$ 中发现，发光机制涉及从掺杂剂到 Mn$^{2+}$ 的能量转移，并提出了掺杂剂周围的局部晶格畸变和可能的电荷补偿机制。

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Li$_2$MnCl$_4$ single crystal: new candidate for red-emitting neutron scintillator

Novel red-emitting scintillator Li$_2$MnCl$_4$ is proposed as a candidate for thermal neutron detection. It features high Li content, low density, low effective atomic number, and emission in red-NIR region. These characteristics make it an interesting candidate for long distance neutron detection in harsh enviroments e. g. decomisioning of nuclear powerplants. The absorption spectrum is thoroughly investigated in the scope of Tanabe-Sugano diagram. Luminescence mechanism in the undoped Li$_2$MnCl$_4$ is studied in depth. Doping by Eu$^{2+}$ and Ce$^{3+}$ is introduced as a trial to improve the scintillation efficiency. We show in the Eu$^{2+}$ and Ce$^{3+}$ doped Li$_2$MnCl$_4$ that luminescence mechanism involves energy transfer from the dopants to Mn$^{2+}$, and propose the local lattice distortion around the dopant and a possible charge compensation mechanisms.

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arXiv - PHYS - Instrumentation and Detectors

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