The calibration of a light detector for recording fluorescence spectra is described. In this connection the physical principles are thoroughly reviewed and disagreements in the literature are referred to. An example for a special application is discussed.
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References
1.
ParkerC. A., Nature182, 1002 (1958).
2.
LippertE.u. a., Z. Anal. Chem.170, 1 (1959).
3.
KortümG. and HessW., Z. Phys. Chem. (N. F)19, 142 (1959).
4.
WhiteC. E.HoM., and WeimerE. Q., Anal, Chem.32, 438 (1960).
5.
ParkerC. A. and ReesW. T., Analyst85, 597 (1960).
6.
ParkerC. A. and ReesW. T., Analyst87, 83 (1962).
7.
ParkerC. A., Anal. Chem.34, 502 (1962).
8.
MelhuishW. H., J. Opt. Soc. Amer.52, 1256 (1962).
9.
DurshelH. V.SommersH. L., and CoxR. C., Anal. Chem.35, 2166 (1963).
10.
SeligerH. and McElroyW. D., Light: Physical and Biological Action (Academic Press Inc., New York, 1965).
11.
ChenR. F., Analyt. Biochem.20, 339 (1967).
12.
EastmanJ. W., Photochem. and Photobiol.6, 55 (1967).
13.
de VosJ. C., Physica20, 690 (1954).
14.
KortümG., “Kolorimetrie, Photometrie und Spektrometric”4. Aufl.Berlin, Göttingen, Heidelberg, 1962.
15.
PohlR. W., “Optik and Atomphysik,”9. Aufl.Berlin, Göttingen, Heidelberg, 1954.
16.
Manufacturer: Deutsche Philips GmbH Hamburg; Osram GmbH, Berlin.
17.
BauerG., “Strahlungsmessung im optischen Spektralbereich,”Braunschweig, 1962.
