BirthG.S.HechtH.G., “The physics of near-infrared reflectance”, in Near-Infrared Technology in the Agricultural and Food Industries, Ed by WilliamsP.C.NorrisK.H., Am. Assoc. Cereal Chemists, Inc., St Paul, MN, pp. 1–15 (1987).
2.
McClureW.F., “Electronics for Spectroscopists: Part 5. Mac's Measurement Model”, NIR news11(3), 13 (2000).
3.
McClureW.F., “Near-infrared Instrumentation”, in Near-Infrared Technology in the Agricultural and Food Industries, Ed by WilliamsP.C.NorrisK.H., Am. Assoc. Cereal Chemists, Inc., St. Paul, MN, pp. 89–106 (1987).
4.
McClureW.F., “Near-infrared spectroscopy. The giant is running strong”, Anal. Chem.66(1), 43A (1994).
EdwardsD.K.GierJ.T.NelsonK.E.RoddickR. D., “Integrating sphere for imperfectly diffuse samples”, Appl. Optics51, 1279 (1961).
7.
FukutakeK.SawadaN., “On the near infra-red absorption of hemoglobin standard by the use of integrating sphere”, Nippon Ketsueki Gakkai Zasshi33(3), 348 (1970).
8.
GindeleK.KohlM.MastM., “Spectral Reflectance Measurements Using an Integrating Sphere in the Infrared”Appl. Optics24(12), 1757 (1985).
9.
MastersonK.G.BurrowsJ.R.SchisselP., “An integrating sphere spectrometer for high-temperature materials characterization”, Proc. SPIE-Int. Soc. Opt. Eng.562, 275 (1985).
10.
TranchartS.BachirI.H.DestombesJ.-L., “Sensitive Trace Gas Detection with Near-Infrared Laser Diodes and an Integrating Sphere”, Appl. Optics35(36), 7070 (1996).
11.
EckerleK.L.VenableW.H.WeidnerV.R., “Averaging sphere for ultraviolet, visible, and near infrared wavelengths: A highly effective design”, Appl. Optics15, 703 (1976).
12.
HaroldR.W., “A Review of Applications for Sphere-Spectrophotometry”, Reflections and Transmissions57(Jan), 5 (1989).
13.
JacquezJ.A.McKeehanW.HussJ.DmitroffJ.M.KuppenheimH.F., “Integration Sphere for Measuring Diffuse Reflectance in the Near Infrared”, J. Opt. Soc. Am.45, 781 (1955).
14.
MillerO.E.SantA.J., “Incomplete integrated sphere”, J. Opt. Soc. Am.48, 828 (1958).
