216 RADIATION BIOLOGY 



Curcio, J. A., and C. C. Petty (1951) The near-infrared absorption spectrum of 

 liquid water. J. Opt. Soc. Amer., 41 : 302-304. 



Davis, R., and K. S. Gibson (1931) Filtei-s for the rcjjrodut-tion of sunlight and day- 

 light and the determination of roior temperature. Xatl. Bur. Standards U.S. 

 Misc. Publ. 114. 



(1934) Filters for producing the color of tlie equal-energy stimulus. J. 



Research Natl. Bur. Standards, 12: 2()3-2G7. 



Donaldson, R. (1952) Stray light in monoehromators. J. Sci. Instr., 29: 150-153. 



Eastman Kodak Company (1951) Kodak Wratten filters for scientific and technical 

 uses. Rochester, N.Y. 



French, C. S., G. S. Rabideau, and A. S. Holt (1947) The construction and per- 

 formance of a large grating monochromator with a high energy output for photo- 

 chemical and biological investigations. Rev. Sci. Instr., 18: 11-17. 



Gillieson, A. H. C. P. (1949) A new spectrographic diffraction grating mounting. 

 J. Sci. Instr., 26: 335-339. 



Greenland, K. M. (1952) Interference filters in optics. Endeavor, 11: 143-148. 



Greenland, K. M., and C. Billington (1950) The construction of interference filters 

 for the transmission of light of specified wavelengths. Proc. Roy. Soc. London, 

 B63: 359-363. 



Harrison, G. R. (1934) Simply constructed ultraviolet monochromators for large 

 area illumination. Rev. Sci. Instr., 5: 149-152. 



Harrison, G. R., R. C. Lord, and J. R. Loofbourow (1948) Practical spectroscopy. 

 Prentice-Hall, Inc., New York. 



Harshaw Chemical Company Synthetic optical crystals. Cleveland. 



Henry, R. L. (1948) The transmission of powder films in the infrared. J. Opt. Soc. 

 Amer., 38: 775-789. 



Jena Glass Works Jena colored optical filter glasses for scientific and technical 

 purposes. Jenaer Glaswerk, Schott und Gen., Jena. 



Jones, L. A. (1930) Light filters for the isolation of narrow spectral regions. Phot. 

 J., 70: 337-346. 



Judd, D. B. (1949) A comparison of direct colorimetry of titanium pigments with 

 their indirect colorimetry based on spectrophotometry and a standard observer. 

 J. Research Natl. Bur. Standards, 43: 227-235. 



Kasha, M. (1948) Transmission filters for the ultraviolet. J. Opt. Soc. Amer., 38: 

 929-934. 



Kremers, H. C. (1947) Optical silver chloride. J. Opt. Soc. Amer., 37: 337-341. 



Land, E. H. (1946) Plastic optics. J. Opt. Soc. Amer., 36: 349, 



Lothian, G. F. (1949) Absorption spectrophotometry. Hilger and Watts, Ltd., 

 London. 



McAlister, E. D. (1935) The Christiansen light filter: its advantages and limitations. 

 Smithsonian Misc. Collections, 93(7): 1-12. 



Mattiello, J. J. (1946) Protective and decorative coatings. Vol. V, John Wiley & 

 Sons, Inc., New York. 



Mellon, M. G. (ed.) (1950) Analytical absorption spectroscopy. John Wiley & 

 Sons, Inc., New York. 



Middleton, W. E. K., and C. L. Sanders (1951) The absolute spectral diffuse reflect- 

 ance of magnesium oxide. J. Opt. Soc. Amer., 41: 419-424. 



(1953) An improved sphere point. Ilium. Eng., 48: 254-256. 



Minkoff, G. J., and A. G. Gaydon (1946) A Christiansen filter for the ultraviolet. 

 Nature, 158: 788. 



Monk, G. S. (1928) A mounting for the plane grating. J. Opt. Soc. Amer., 17: 

 358-364. 



