000001921 001__ 1921
000001921 005__ 20160701171655.0
000001921 037__ $$aASTROimport-78
000001921 100__ $$aIlijic, S.
000001921 245__ $$aSeparation techniques for disentangling of composite spectra
000001921 260__ $$c2001
000001921 520__ $$aDisentangling of composite spectra is a promising technique for the analysis of double-lined spectroscopic binary systems. The technique makes use of a separation routine to extract model-component spectra out of a time series of observed composite spectra. Focusing on the differences between two possible approaches in the implementation of the separation routine, we compare the resulting limitations. We perform test runs on artificial data and conclude that separation in the wavelength domain is more versatile in several aspects, while the computational efficiency of separation in the Fourier domain allows working with larger data sets which is beneficial in a fully-blown disentangling process. 
000001921 700__ $$a Hensberge, H.
000001921 700__ $$a Pavlovski, K.
000001921 773__ $$c357-366$$pFizika B$$v10$$y2001
000001921 85642 $$ahttp://esoads.eso.org/abs/2001FizB...10..357I
000001921 905__ $$apublished in
000001921 980__ $$aREFERD