Bibcode
DOI
Allende Prieto, Carlos
Bibliographical reference
The Astronomical Journal, Volume 134, Issue 5, pp. 1843-1848 (2007).
Advertised on:
11
2007
Citations
23
Refereed citations
22
Description
The measurement of Doppler velocity shifts in spectra is a ubiquitous
theme in astronomy, usually handled by computing the cross-correlation
of the signals and finding the location of its maximum. This paper
addresses the problem of the determination of wavelength or velocity
shifts among multiple spectra of the same, or very similar, objects. We
implement the classical cross-correlation method and experiment with
several simple models to determine the location of the maximum of the
cross-correlation function. We propose a new technique,
self-improvement, to refine the derived solutions by requiring that the
relative velocity for any given pair of spectra be consistent with all
others. By exploiting all available information, spectroscopic surveys
involving large numbers of similar objects may improve their precision
significantly. As an example, we simulate the analysis of a survey of
G-type stars with the SDSS instrumentation. Applying self-improvement
refines relative radial velocities by more than 50% at low
signal-to-noise ratios. The concept is equally applicable to the problem
of combining a series of spectroscopic observations of the same object,
each with a different Doppler velocity or instrument-related offset,
into a single spectrum with an enhanced signal-to-noise ratio.