[1] Roth N, Anders K, Frohn A. Simultaneous measurement of temperature and size of droplets in the micrometer range. Proc. 7th Int. Congr. on Optical Methods in Flow and Particle Diagnostics, 1988, 67:294~304
[2] Anders K, Roth N, Frohn A. Theoretical and experimental studies of the influence of internal temperature gradients on rainbow refractometry. PARTEC95, 4th International Congress Optical Particle Sizing. Nurnberg, Germany, 21~23 March 1995. 419~428
[3] Wu Zhensen, Guo Lixin, Ren Kuanfang et al.. Improve of electromagnetic scattering of plane wave and beam for Multilayered sphere. Appl. Opt., 1997, 36(21):5188~5198
[4] Han Xiang′e, Ren Kuanfang, Mees Loic et al.. Surface waves/geometrical rays interferences: Numerical and experimental behaviour at rainbow angles. Opt. Commun., 2001, 195(14):49~54
[5] Wang W T, van de Hulst H C. Rainbows: Mie computations and the Airy Approximation. Appl. Opt., 1991, 30(1):106~117
[6] van Beeck J P A J, Riethmuller M L. Nonintrusive measurements of temperature and size of single falling raindrops. Appl. Opt., 1995, 34(10):1633~1639
[7] van Beeck J P A J, Riethmuller M L. Rainbow phenomena applied to measurement of droplet size and velocity and to the detection of nonsphericity. Appl. Opt., 1996, 35(13):2259~2266
[8] Corbin C, Han X, Wu Z S et al.. Rainbow refractometry: application to nonhomogeneous scatterers. 3th International Conference on Fluid Dynamic Measurement and Its Applications. Beijing, China, 1997, October,. Beijing: International Academic Publisher, 1997. 39~44