Associated Researcher | Shanghai Advanced Research Institute | China
Assoc. Prof. Dr. Longxiang Liu is a distinguished researcher whose work in Photonuclear Physics has significantly advanced experimental nuclear science and precision measurement studies. His sustained contributions to Photonuclear Physics reflect a strong command of detector development, beamline optimization, and advanced spectrometry. His research in Photonuclear Physics has supported the design and enhancement of major synchrotron and gamma source facilities, where he has consistently demonstrated leadership in collaborative scientific programs. Through active participation in numerous national research projects, he has strengthened the role of Photonuclear Physics in understanding reaction mechanisms, photon induced processes, and nuclear structure behavior. His publications highlight impactful findings in Photonuclear Physics, including precise cross section measurements, high fidelity radiation response modeling, and data driven approaches to photon based nuclear interactions. He has contributed to the development of critical instrumentation that supports Photonuclear Physics experiments, including spectrometers, automatic data acquisition systems, and detector calibration procedures. His collaborative work with multidisciplinary teams further expands the reach of Photonuclear Physics into applications such as isotope production, nuclear safety analysis, and advanced imaging methods. The influence of his research is evident through his numerous peer reviewed papers, patents, and contributions to facility level scientific advancements. As an active contributor to Photonuclear Physics communities, he continues to foster research environments that emphasize innovation, methodological rigor, and scientific impact. His work demonstrates how Photonuclear Physics can serve both fundamental discovery and practical technological development, positioning him as a key figure in this evolving field. His growing citation record and research collaborations illustrate the expanding global relevance of his findings and his commitment to strengthening Photonuclear Physics as a core pillar of nuclear science. Scopus profile of 945 Citations, 73 Documents, 16 h-index.
Profile: Scopus
Featured Publications
1. Authors. (2026). Direct unfolding determination of energy spectra using a LaBr₃ detector for SLEGS. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.
2. Authors. (2026). PCSa: A tool for photoneutron cross section measurement data analysis at SLEGS. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment.
3. Authors. (2025). A substitution measurement for cross section of 65Cu(γ, n)64Cu reaction using natCu and 63Cu targets by quasi-monoenergetic γ beams at SLEGS. Nuclear Science and Techniques.
4. Authors. (2025). Photoneutron cross-section data generation and analysis at the Shanghai laser electron gamma source. Nuclear Science and Techniques.
5. Authors. (2025). Experimental extraction of neutron resonance parameters at 20–300 eV for 147,149Sm. Nuclear Science and Techniques.