期刊名：Quantum Beam Science

期刊主页：https://www.mdpi.com/journal/qubs

本期我们精选了期刊近期发表的8篇综述论文，涵盖从核反应堆中子学设计到日本刀无损检测，从FLASH放疗超高剂量率到小角中子散射仪器优化，从纳米增强激光光谱到低能核物理径迹探测器，再到量子关联光学成像和锂离子电池原位X射线研究。这些工作既展现了量子束技术的前沿进展，也体现了方法学创新与重大应用需求的紧密结合。所有文章均可通过下方链接免费阅读和下载。

1. Optimized Neutronics Designs of the Indonesian Experimental Power Reactor/RDE (Comprehensive Review and Future Challenges)

印尼实验堆/RDE 的优化中子学设计（综合评述与未来挑战）

https://www.mdpi.com/2412-382X/10/1/5

Liem, P.H. Optimized Neutronics Designs of the Indonesian Experimental Power Reactor/RDE (Comprehensive Review and Future Challenges). Quantum Beam Sci. 2026, 10, 5.

2. Japanese Sword Studies Using Neutron Bragg-Edge Transmission and Computed Tomography

利用中子布拉格边缘透射与计算机断层成像的日本刀研究

https://www.mdpi.com/2412-382X/9/4/33

Kiyanagi, Y.; Oikawa, K.; Matsumoto, Y.; Parker, J.D.; Watanabe, K.; Sato, H.; Shinohara, T. Japanese Sword Studies Using Neutron Bragg-Edge Transmission and Computed Tomography. Quantum Beam Sci. 2025, 9, 33.

3. Review of VHEE Beam Energy Evolution for FLASH Radiation Therapy Under Ultra-High Dose Rate (UHDR) Dosimetry

用于 FLASH 放射治疗的超高剂量率（UHDR）剂量学中VHEE 束能量演化的综述

https://www.mdpi.com/2412-382X/9/4/29

Gazis, N.; Gazis, E. Review of VHEE Beam Energy Evolution for FLASH Radiation Therapy Under Ultra-High Dose Rate (UHDR) Dosimetry. Quantum Beam Sci. 2025, 9, 29.

4. Intensity Enhancement and Q-Range Extension in Pinhole SANS Instruments with Neutron Focusing Lenses

利用中子聚焦透镜在针孔式 SANS 仪器中实现强度增强与 Q 区域扩展

https://www.mdpi.com/2412-382X/9/1/6

Radulescu, A. Intensity Enhancement and Q-Range Extension in Pinhole SANS Instruments with Neutron Focusing Lenses. Quantum Beam Sci. 2025, 9, 6.

5. On the Similarity and Differences Between Nano-Enhanced Laser-Induced Breakdown Spectroscopy and Nano-Enhanced Laser-Induced Plasma Spectroscopy in Laser-Induced Nanomaterials Plasma

激光诱导纳米材料等离子体中纳米增强激光诱导击穿光谱与纳米增强激光诱导等离子体光谱的异同研究

https://www.mdpi.com/2412-382X/9/1/1

Sherbini, A.E.; Aboulfotouh, A.; Sherbini, T.E. On the Similarity and Differences Between Nano-Enhanced Laser-Induced Breakdown Spectroscopy and Nano-Enhanced Laser-Induced Plasma Spectroscopy in Laser-Induced Nanomaterials Plasma. Quantum Beam Sci. 2025, 9, 1.

6. Tracking Detectors in Low-Energy Nuclear Physics: An Overview

低能核物理中的径迹探测器概述

https://www.mdpi.com/2412-382X/8/3/24

Vesi?, J. Tracking Detectors in Low-Energy Nuclear Physics: An Overview. Quantum Beam Sci. 2024, 8, 24.

7. Quantum Correlation Enhanced Optical Imaging

量子关联增强光学成像

https://www.mdpi.com/2412-382X/8/3/19

Vernekar, S.; Xavier, J. Quantum Correlation Enhanced Optical Imaging. Quantum Beam Sci. 2024, 8, 19.

8. Lithium-Ion Batteries under the X-ray Lens: Resolving Challenges and Propelling Advancements

X 射线视角下的锂离子电池：解决挑战并推动进展

https://www.mdpi.com/2412-382X/8/2/10

Samimi, M.; Saadabadi, M.; Hosseinlaghab, H. Lithium-Ion Batteries under the X-ray Lens: Resolving Challenges and Propelling Advancements. Quantum Beam Sci. 2024, 8, 10.

期刊介绍

主编：Prof. Dr. Klaus-Dieter Liss

Quantum Beam Science (QuBS, ISSN 2412-382X) 是一个国际性开放获取期刊。主要关注量子束在广义材料研究和表征方面的应用，以及量子束源、仪器和设备的发展。期刊创刊于2017年，目前已被Scopus (Elsevier)、Emerging Sources Citation Index (ESCI)—Web of Science (Clarivate Analytics)、CAPlus/SciFinder、Inspec、Astrophysics Data System等数据库收录：https://www.mdpi.com/journal/qubs/indexing

2024 Impact Factor：1.7

2024 CiteScore：2.8