We investigate the electron capture processes of N4+(1s22s) colliding with He(1s2) in the energy range of 10 1700eV/amu using the quantum-mechanical molecular-orbital close-coupling (QMOCC) method.Total and state-selective single-electron capture and double-electron capture (SEC and DEC) cross sections are obtained and compared with other available studies.The results agree better with the experimental data in both trend and magnitude when the electron translation factor (ETF) effects are included.Our results indicate that both the SEC and DEC processes play important roles in the considered energy region.For the SEC processes,the N3+ (1s22p2) + He+ (1s) states are the dominant capture states,and the N2+ (1s22s2p2) +He2+ states are the main DEC states.