辐射诱导的EPR信号在生物磷灰石中的增强

V. Nosenko, I. Vorona, S. Lemishko, I. Golovina, V. O. Yukhymchuk, S. Okulov, V. Neimash, V. Povarchuk, S. Solopan, A. Belous
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引用次数: 1

摘要

放大剂量计EPR信号在矿化生物材料可在有限的数量已证明在本文。将辐照后的牙釉质、牙本质和骨组织粉末放入外径接近1.4 mm的硅胶安瓿中。为了放大信号,采用高κ低损耗陶瓷材料BaTi4O9 + 8.5% ZnO制成外半径为2.85 mm、内半径为0.75 mm、高1.85 mm的圆柱形介电插入。结果表明,当样品完全插入该电介质中时,信号放大达到最大(约一个数量级)。研究发现,如果使用介电介质插入,剂量测量信号的线形不会失真。通过对放大后的EPR光谱的分解,我们确定了两种CO2自由基对剂量学信号的相对贡献,这与文献数据一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancement of radiation-induced EPR signal in bioapatites
Amplification of a dosimetric EPR signal in mineralized biological materials available in limited quantities has been demonstrated in this paper. Powders of irradiated enamel, dentin, and bone tissue were placed into silica ampoules with the outer diameter close to 1.4 mm. To amplify the signal, the dielectric insert in the form of cylinder with the outer radius 2.85 mm, the inner radius 0.75 mm, and the height 1.85 mm made of a high-κ and low-loss ceramic material BaTi4O9 + 8.5% ZnO has been used. It has been shown that maximum signal amplification (about an order of magnitude) has been achieved when the sample is completely inserted into this dielectric. It has been found that the line shape of the dosimetric signal is not distorted, if using the dielectric insert. Decomposition of the amplified EPR spectra allowed us to determine the relative contribution of two types of CO2– radicals to the dosimetric signal, which coincides with the literature data.
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