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A new method for detecting velocity shifts and distortions between optical spectra

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posted on 2024-07-26, 14:00 authored by Tyler M. Evans, Michael MurphyMichael Murphy
Recent quasar spectroscopy from the Very Large Telescope (VLT) and Keck suggests that fundamental constants may not actually be constant. To better confirm or refute this result, systematic errors between telescopes must be minimized. We present a new method to directly compare spectra of the same object and measure any velocity shifts between them. This method allows for the discovery of wavelength-dependent velocity shifts between spectra, i.e., velocity distortions, that could produce spurious detections of cosmological variations in fundamental constants. This 'direct comparison' method has several advantages over alternative techniques: it is model-independent (cf. line-fitting approaches), blind, in that spectral features do not need to be identified beforehand, and it produces meaningful uncertainty estimates for the velocity shift measurements. In particular, we demonstrate that, when comparing echelle-resolution spectra with unresolved absorption features, the uncertainty estimates are reliable for signal-to-noise ratios ≳7 per pixel. We apply this method to spectra of quasar J2123-0050 observed with Keck and the VLT and find no significant distortions over long wavelength ranges (∼1050 Å) greater than ≈180 m s^-1. We also find no evidence for systematic velocity distortions within echelle orders greater than 500 m s-1. Moreover, previous constraints on cosmological variations in the proton-electron mass ratio should not have been affected by velocity distortions in these spectra by more than 4.0 ± 4.2 parts per million. This technique may also find application in measuring stellar radial velocities in search of extra-solar planets and attempts to directly observe the expansion history of the universe using quasar absorption spectra.

Funding

Fundamental physics in distant galaxies

Australian Research Council

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PDF (Published version)

ISSN

1538-4357

Journal title

Astrophysical Journal

Volume

778

Issue

2

Article number

article no. 173

Pagination

16 pp

Publisher

Institute of Physics Publishing

Copyright statement

Copyright © 2013. The American Astronomical Society. The published version is reproduced in accordance with the copyright policy of the publisher and can be also be located at http://doi.org/10.1088/0004-637X/778/2/173

Language

eng

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