研究方向：

1. 释光测年技术、方法和基本理论；
   

2. 第四纪环境的地貌过程；

3. 地质考古；

4. 环境考古。

第一作者及通讯作者:

Rui, X*., Li, B., Cohen, T.J., 2022. Testing the use of continental standardized growth curves (SGCs) for De estimation on coarse quartz grains from Lake Woods, Northern Australia. Frontiers in Earth Science, 16648714.

Rui, X*., Li, B., Yuan, B.Y., Zhang, J.F., 2022. Luminescence dating of the Huliu River terraces in the Nihewan Basin, North China. Quaternary Geochronology 71, 101316.

Rui, X*., Li, B., Guo, Y.J., 2020. The effect of residual signal on dose measurements using MET-pIRIR signals from K-feldspar. Quaternary Geochronology 58, 101065.

Rui, X*., Li, B., Guo, Y.J., 2020. Testing the upper limit of luminescence dating based on standardised growth curves for MET-pIRIR signals of K-feldspar grains from northern China. Quaternary Geochronology 57, 101063.

Rui, X., Guo, Y.J., Zhang, J.F., Hu, Y., Mei, H.J., Wang, Y.P., Xie, F., Li, B*., 2019. Luminescence chronology of the Palaeolithic–Neolithic transition in the Yujiagou site at the Nihewan Basin, northern China. Journal of Quaternary Science 34(2), 125-137.

Rui, X*., Li, B., Guo, Y. J., Zhang, J. F., Yuan, B. Y., Xie, F., 2019. Variability in the thermal stability of OSL signal of single-grain quartz from the Nihewan Basin, North China. Quaternary Geochronology 49, 25-30.

Rui, X*., Zhang, J.F*., Hou, Y.M., Yang, Z.M., Liu, Y., Zhen, Z.M., Zhou, L.P., 2015. Feldspar multi-elevated-temperature post-IR IRSL dating of the Wulanmulun Paleolithic site and its implication. Quaternary Geochronology 30, 438-444.

合作作者：

Codilean, A.T*., Munack, H*., Saktura, W.M., Cohen, T., Jacobs, Z., Ulm, S., Hesse, P.P., Heyman, J., Peters, K., Williams, Saktura, R.B.K., Rui, X., Chishiro-Dennelly, K., Panta, A., 2022. OCTOPUS database (v.2). Earth System Science Data 14(8), 3695-3713.

Zhang, J.F*., Hou, Y.M., Guo, Y.J., Rui, X., Wang, Z.H., Yang, Z.M., Liu, Y., Zhen, Z. M., Hu, Y., Zhou, L.P., 2022. Radiocarbon and luminescence dating of the Wulanmulun site in Ordos, and its implication for the chronology of Paleolithic sites in China. Quaternary Geochronology 72, 101371.

Wang, F.G., Guo, Y.J*., Xian, Q., Li, M., Rui, X., Xie, F., 2021. Luminescence chronology for the Paleolithic site of Xinmiaozhuang Locality 1 (XMZ1) in the Nihewan Basin, northern China, and its paleoenvironmental and archaeological implications. Journal of Human Evolution 157, 103033.

Hu, Y*., Marwick, B*., Zhang, J.F., Rui, X., Hou, Y.M., Chen, W.R., Huang, W.W., Li, B., 2019. Robust technological readings identify integrated structures typical of the Levallois concept in Guanyindong Cave, south China. National Science Review 6(6), 1096-1099.

Hu, Y., Marwick, B*., Zhang, J.F., Rui, X., Hou, Y.M., Yue, J.P., Chen, W.R., Huang, W.W., Li, B*., 2019. Late Middle Pleistocene Levallois stone-tool technology in southwest China. Nature 565(7737), 82-85.

Zou, G.N., Shelach, G., Li, X.Q., Zhao, C., Rui, X., Zhou, L.P., Zhang, J.F*., 2017.  Geochronology and paleoenvironment of the Taoshan site, northeastern China, and archaeological implications. Quaternary international 463, 6-17.

主持科研项目：

2024-2026，国家自然科学基金青年项目，泥河湾盆地李汪涧旧石器遗址年代和古地貌重建.

2022-2023，吉林大学学科交叉融合创新一般项目，泥河湾盆地桑干河阶地年代及其对考古遗址的指示意义.