Chen Nanxian, Li Gyangying. Theoretical investigation on the inverse black-body radiation problem [J]. IEEE Transactions on Antennas and Propagation, 1990(8):1287-1290.doi:10.1109/8.56968.
[2]
Xie Tading, Goldsmith P F. A new method for analyzing IRAS data to determine the dust temperature distribution [J]. Astrophysical Journal, 1991.31-34.
[3]
Chen Nanxian. Closed-form solution for inverse problems of Fermi systems [J]. Physical Review, 1993(2):1558-1561.
[4]
Chen Nanxian, Chen Zhaodou, Wei Yucuan. Multidimensional inverse lattice problem and a uniformly sampled arithmetic Fourier transform [J]. Physical Review, 1997.R5-R8.
[5]
Chen Nanxian. Theoretical study on the phase stability, site preference, and latticeparameters for [J]. Journal of Physics:Condensed Matter, 2001, (11):2727-2736.doi:10.1088/0953-8984/13/11/326.
[6]
Zhang Shuo, Chen Nanxian. Ab initio interionic potentials for NaCl by multiple lattice inversion [J]. Physical Review, 2002.1-10.
Chen Nanxian. Modified mobius inverse formula and its applications in physics [J]. Physical Review Letters, 1990, (11):1193-1195.
[11]
Rosu H. Mobius inverse problem for distorted black holes(Ⅱ) [J]. Nuovo Cimento, 1993, (12):1333-1339.
[12]
Wang Jieming. Temperature distribution of accretion disks in active galactic nuclei [J]. Astrophysical Journal, 1996, (2.part1):564-571.doi:10.1086/177805.
Ge Xijin, Chen Nanxian. Selective field evaporation in field-ion microscopy for ordered alloys [J]. Journal of Applied Physics, 1999(7):3488-3493.doi:10.1063/1.369706.
[15]
Zhang Shuo, Chen Nanxian. Determination of the B1-B2 transition path in RbCl by Mobius pair potentials [J]. Philosophical Magazine, 2003.1451-1461.doi:10.1080/1478643031000080717.
[16]
Maddox J. Mobius and problems of inversion [J]. Nature, 1990, (29):377.
