ABSTRACT
Analysis of any spectroscopic data comprises the determination of line parameters (position, halfwidth, line shape, intensity), and their errors. Depending on complexity of the spectrum some preliminary transformation of the initial spectrum may be needed to elucidate the approximate position of the individual components. In this work it is proposed to generate the model of the experimental spectrum with the help of original mathematical procedure which results in a new spectrum with better spectral resolution. The procedure is applied to room temperature IR-spectra of quartz. It is shown that spectral resolution is improved by a factor of 3. The validity of room temperature results is confirmed by low temperature measurements.
