Abstract

In Part 1 [ Appl. Opt. 12, 1286 ( 1973)] we described the design of a high resolution luminescence spectrometer for research purposes. In this paper the computer processing of its digital output is discussed. The data treatment is based upon statistical concepts. Subroutines for wavelength calibration, dark count correction, data smoothing, and curve presentation have been developed. Corrected emission and excitation spectra may be obtained with additional calibration data, and relative quantum yields may be determined. The final luminescence spectra are plotted with their corresponding standard deviations.

© 1974 Optical Society of America

High Resolution Luminescence Spectrometer. 1: Simultaneous Recording of Total Luminescence and Phosphorescence

Vo Dinh Tuan and Urs P. Wild
Appl. Opt. 12(6) 1286-1292 (1973)

Apparatus for Measurement of Luminescence Spectra with a Digital Recording System

F. R. Lipsett, G. Bechthold, F. D. Blair, F. V. Cairns, and D. H. O’Hara
Appl. Opt. 9(6) 1312-1318 (1970)

Pulsed Dye Laser System for Raman and Luminescence Spectroscopy

M. I. Bell and R. N. Tyte
Appl. Opt. 13(7) 1610-1614 (1974)

Multiple-Sine-Slit Microdensitometer and MTF Evaluation for High Resolution Emulsions. 2: MTF Data and Other Recording Parameters of High Resolution Emulsions for Holography

Stefan Johansson and Klaus Biedermann
Appl. Opt. 13(10) 2288-2291 (1974)

Absolute Luminescence Spectra via Digital-Technique and Time-Resolved Spectroscopy

L. Costa, F. Grum, and D. J. Paine
Appl. Opt. 8(6) 1149-1155 (1969)