W. Shoulejkin: Phil. Mag. 48, 307 (1924) | 1.32 | 1,3,∞ | Scattering functions every 20° |
H. Blumer: Z. Physik 32, 119 (1925); 38, 159 (1931) | 1.25 | 0.4,0.8,1.6,4,8 | Scattering functions every 10° |
1.33 | 1.5,3 |
1.5 | 4 |
∞ | 0.1,0.5,1,3,5,10 |
J. Stratton and H. Houghton: Phys. Rev. 38, 159 (1931) | 1.33 | 0–40 | Scattering coefficient |
T. Caspersson: Kolloid-Z. 60, 151 (1932); 65, 162 (1933) | 1.63 | 0.71–316 (17 values) | Scattering functions at 0°, 45°, 90°, 135°, and 180° |
1.56 |
1.50 |
H. Engelhard and H. Freiss: Kolloid-Z. 81, 129 (1937) | 1.44 | 0.4,1,1.5,2,2.5,3, 4,6,8 | Scattering functions every 10° |
Paranjpe, Naik, and Vaidya: Proc. Indian Acad. Sci. A9, 333, 352 (1939) | 1.33 | 4,5,6,7,8,9,10, 12,20,30 | Scattering functions every 10° |
R. Ruedy: Can. J. Research A21, 79, 99 (1943); A22, 53 (1944) | 1.33 | 1/8,1/4,3/8,1/2, 3/4,1 | Scattering coefficient |
H. Houghton and W. Chalker: J. Opt. Soc. Am. 39, 955 (1949) | 1.33 | 7–24 (33 values) | Scattering coefficient |
A. Lowan: “Tables of scattering functions for spherical particles,” Natl. Bur. Standards, Appl. Math. Series 4, Washington 25, D. C., 1948 | 1.33 | 0.5–6.0 (15 values) | Scattering functions every 10° and scattering coefficient |
1.44 |
1.50 |
2.00 |
4.21–2.51i | 0.100–1.00 (.05) | Extinction coefficient |
1.0–3.0 (.1) |
5.55–2.85i | 0.10–1.00(.05) | Extinction coefficient |
1.0–2.0(.1) |
8.18–1.96i | 0.100–1.00(.025) | Extinction coefficient |
3.41–1.94i | 0.10–1.00 (.05) | Extinction coefficient and an and pn |
1.0–5.0 (.1) |
7.21–2.65i | 0.1000–1.000 (.025) | Extinction coefficient |
1.00–1.30 (.05) |
8.90–.69i | 0.10–0.30(.01) | Extinction coefficient and an and pn |
0.300–0.430 (.005) |
0.43–0.60 (.01) |
J. D. Riley: “Calculations of light intensity functions, U. S. Naval Res. Lab., Radio Div. III, ORB Information Bulletin No. 9, 8 June 1949 | 1.486 | 0.5–3.0(.1) | Scattering functions every 10° and scattering coefficients |
A. Aden: “Electromagnetic scattering from metal and water spheres,” Tech. Rept. No. 106 Cruft Laboratory, Harvard University, Cambridge, Mass., 1950 | 9.01–0.43i | 0.6–6.0 | Scattering functions at 0° |
∞ | 0.6–6.0 |
R. O. Gumpricht and C. M. Sliepcevich: Tables of light scattering functions for spherical particles,” University of Michigan, Ann Arbor, 1951 | 1.20 | 1–6(1) | An and Pn |
1.40 | 8 |
1.50 | 10–100(5) |
1.60 | 100–200(10) |
200–400(50) |
1.33 | 4,5,6,8 | An and Pn |
1.44 | 10–100(5) |
100–200(10) |
200–400(50) |
Kerker, Langleben, and Gunn: J. Meteorology 8, 424 (1951) | | 0.126 | Backscattering by particle consisting of two concentric spheres. Inner sphere m=1.75, outer sphere m=8.9–1.5i |
Gumpricht, Sung, Chin, and Sliepcevich: J. Opt. Soc. Am. 42, 226 (1952) | 1.33 | 6,8,10–35(5) | Scattering functions every 10° |
R. O. Gumpricht and C. M. Sliepcevich: J. Phys. Chem. 57, 90 (1953) | 1.33 | 20,30,40,60,80, 100,200,400 | Scattering coefficient |
1.44 | 20,80,150 |
1.20 | 20,80 |
M. Kerker and H. Perlee: J. Opt. Soc. Am. 43, 49 (1953) | 2.00 | 1.30–2.80 (12 values not in Lowan tables) | Scattering functions at 90° |
M. Kerker and A. L. Cox, J. Opt. Soc. Am. (to be published) | 2.00 | 3.0–5.0 (11 values not in Lowan tables) | Scattering functions at 130° |
1.30–2.80 (12 values reported by Kerker and Perlee) | Scattering functions at 130° |