[1] Tao Dai, Liangzhi Cao, Qingming He, Hongchun Wu, Haoyu Zhang, Kaiming Feng, Qixiang CaoNeutronics optimization study on the first wall design of CFETR for TBR enhancement[J]. Fusion Engineering and Design,2021,172:112721

[2] Jie Li, Hongchun Wu, Qingming He, Wei Shen, Qi Zheng, Liangzhi Cao, Qixiang Cao, Shen QuThe neutron-photon-coupling analysis of the tritium-breeding blanket in CFETR by NECP-MCX[J]. Fusion Engineering and Design,2021,172:112747

[3] Qingming He, Qi Zheng, Jie Li, Hongchun Wu, Wei Shen, Liangzhi Cao, Zhouyu Liu, Jialong XuNECP-MCX: A hybrid Monte-Carlo-Deterministic particle-transport code for the simulation of deep-penetration problems[J]. Annals of Nuclear Energy,2021,151:107978

[4] Chenghui Wan，Jiahe Bai，Yu Liu，Xing Huang，Hongchun WuMethod research and engineering application of the B10-abundance correction for PWR[J]. Nuclear Engineering and Design,2021,378:111250

[5] Jiahe Bai, Chenghui Wan, Yunzhao Li, Hongchun Wu, Fan LiA Source-expansion-based method for transient Pin-Power reconstruction[J]. Annals of Nuclear Energy,2021,164:108565

[6] Jiewei Yang, Hongchun Wu, Lin Guo, Yunzhao Li, Xuesong Li, Sicheng Wang, Tengfei Hao, Wenhao JiValidation of NECP-Bamboo with BEAVRS and AP1000 measurements[J]. Nuclear Engineering and Design,2021,376:111110

[7] Yongping Wang, Jianda Chen, Linfang Wei, Huabei Yin, Youqi Zheng, Xianan DuA method for calculating the assembly bowing reactivity coefficients in sodium fast reactor[J]. Annals of Nuclear Energy,2021,155:108176

[8] Xianan Du, Xuewen Wu, Youqi Zheng * and Yongping WangReactivity Effect Evaluation of Fast Reactor Based on Angular-Dependent Few-Group Cross Sections Generation[J]. Energies,2021,14:4042

[9] Xianan Du, Yushan Tao, Youqi Zheng*, Chenglong Wang, Yongping Wang, Suizheng Qiu, Bin Zhang, Zi'an ZhaiReactor core design of UPR-s: A nuclear reactor for silence thermoelectric system NUSTER[J]. Nuclear Engineering and Design,2021,383:111404

[10] Liang Qiao, Youqi Zheng*, Hongchun Wu, Yongping Wang, Xianan DuImproved block-Jacobi parallel algorithm for the SN nodal method with unstructured mesh[J]. Progress in Nuclear Energy,2021,133:103629

[11] Bowen Xiao, Linfang Wei, Youqi Zheng*, Bin Zhang, Hongchun WuOn the equivalence of reaction rate in energy collapsing of fast reactor code SARAX[J]. Nuclear Engineering and Technology,2021,53:732-740

[12] Muhammad Azeem, Youqi Zheng, Liangzhi CaoReactor design of UPR-1: A MW-level reactor for unmanned underwater vehicle propulsion using low-enriched uranium[J]. Nuclear Engineering and Design,2021,380:111305

[13] Wenyu Shu, Tiejun Zu, Liangzhi Cao, Hongchun WuPerformance of CENDL-3.2 evaluated nuclear data library for the shielding benchmarks[J]. Progress in Nuclear Energy,2021,136:103727

[14] Yongqiang Tang, Tiejun Zu, Siyu Yi, Liangzhi Cao, Hongchun WuDevelopment and verification of thermal neutron scattering law data calculation module in nuclear data processing code NECP-Atlas[J]. Annals of Nuclear Energy ,2021,153:108044

[15] Tiejun Zu, Yongqiang Tang, Lipeng Wang, Liangzhi Cao, Hongchun WuThermal scattering law data generation for hydrogen bound in zirconium hydride based on the phonon density of states from first-principles calculations[J]. Annals of Nuclear Energy ,2021,161:108489

[16] Wen Yin, Tiejun Zu, Liangzhi Cao, Hongchun WuRemarks and improvements on neutron KERMA factors and radiation damage cross sections calculated by NECP-Atlas and NJOY21 using different evaluated nuclear data libraries[J]. Annals of nuclear energy,2021,164:108624

[17] Tiejun Zu, Yihan Huang, Qichen Teng, Fenglin Han, Xing Huang, Chenghui Wan, Liangzhi Cao, Hongchun WuApplication of CENDL-3.2 and ENDF/B-VIII.0 on the reactor physics simulation of PWR[J]. Annals of Nuclear Energy ,2021,158:108238

[18] Tiejun Zu, Yongqiang Tang, Zhanpeng Huang, Shuai Qin, Jie Li, Qingming He, Liangzhi Cao, Hongchun WuTreatments of Thermal Neutron Scattering Data and Their Effect on Neutronics Calculations[J]. Frontiers in energy research,2021,9:779261

[19] Cao, Lu; Liu, Zhouyu; Wen, Xingjian; Cao, Liangzhi; Wu, Hongchun; Wu, HongchunResonance calculation based on the deep learning method for treating the non-uniform fuel temperature distribution in PWRs[J]. ANNALS OF NUCLEAR ENERGY,2021,160:108386

[20] Liu, Zhouyu;Wen, Xingjian;Cao, Lu;Cao, Liangzhi;Wu, HongchunAnalysis of the two-step source term calculation method with the high-fidelity source term calculation capability[J]. ANNALS OF NUCLEAR ENERGY,2021,155:108166

[21] Zhou, Xinyu; Liu, Zhouyu; Cao, Liangzhi; Wu, Hongchun; Zhai, ZianA new online energy group condensation method for the high-fidelity neutronics code NECP-X[J]. ANNALS OF NUCLEAR ENERGY,2021,158:108257

[22] Liu, Zhouyu; Xu, Xiaobei; Wu, Hongchun; Cao, LiangzhiMultidimensional multiphysics simulations of the supercritical water-cooled fuel rod behaviors based on a new fuel performance code developed on the MOOSE platform[J]. NUCLEAR ENGINEERING AND DESIGN,2021,375:111085

[23] Qi Zheng, Wei Shen, Qingming He, Jie Li, Liangzhi Cao, Hongchun WuHigh-efficiency simulation of VENUS-3 neutron-shielding problem with an automatic and enhanced hybrid Monte-Carlo-Deterministic method[J]. Annals of Nuclear Energy,2021,153