The production of plastic scintillators with superior optical properties, including high light yield and optimal emission spectra, plays a pivotal role in facilitating their extensive applicability across various domains. In addition, ensuring robust radiation hardness is essential for these scintillators to serve diverse purposes effectively. Given the significant impact of the optical gap on the optical characteristics and radiation resistance of scintillator products, we embarked on optimizing the injection molding technique, focusing on this critical parameter as part of the plastic scintillator fabrication process. Our findings indicate that the injection molding technique not only accelerates the fabrication process, but also yields products with comparable light yield and improved radiation hardness, outperforming samples produced by traditional thermal polymerization. These outcomes not only offer valuable insights and guidance for the streamlined production of high-quality plastic scintillators but also signify a notable advancement in this specialized field of study.

中文翻译：

---

通过先进的注塑成型技术提高塑料闪烁体的性能


生产具有卓越光学特性（包括高光产率和最佳发射光谱）的塑料闪烁体在促进其在各个领域的广泛应用方面发挥着关键作用。此外，确保坚固的抗辐射性对于这些闪烁体有效服务于各种用途至关重要。鉴于光学间隙对闪烁体产品的光学特性和抗辐射性有重大影响，我们着手优化注塑成型技术，将这一关键参数作为塑料闪烁体制造工艺的一部分。我们的研究结果表明，注射成型技术不仅加快了制造过程，而且产生了具有相当光产量和改进的辐射硬度的产品，优于传统热聚合生产的样品。这些结果不仅为高质量塑料闪烁体的简化生产提供了宝贵的见解和指导，而且标志着这一专业研究领域的显着进步。