Abstract
Gigaparsec scale alignments of the quasar optical polarization vectors have been proven to be robust against a scenario of contamination by the Galactic interstellar medium (ISM). This claim has been established by means of optical polarization measurements of the starlight surrounding the lines of sight of the 355 quasars for which reliable optical polarization measurements are available. In this paper, we take advantage of the full-sky and high quality polarization data released by thePlancksatellite to provide an independent, complementary, and up-to-date estimation of the contamination level of the quasar optical polarization data by the Galactic dust. Our analysis reveals signatures of Galactic dust contamination at the two sigma level for about 30 percent of the quasar optical polarization data sample. The remaining 70 percent of the lines of sight do not show Galactic dust contamination above the two sigma level, suggesting low to negligible contamination of the quasar optical polarization signal. We further found arguments suggesting that Galactic thermal dust cannot fully account for the reported quasar optical polarization alignments. Based on the measurements of the ratio of the polarized intensity of the dust in the submillimeter to the degree of linear polarization of the quasar in the optical, we provide a new and independent quality criteria to apply to the quasar optical polarization sample. We argue that, unless correction is applied, such a criterion should be imposed on the data for future investigations in the framework of the cosmological-scale correlations of quasar optical polarization vector orientations that still could compete with the isotropic principle of the cosmological paradigm.
Highlights
Hutsemékers (1998), Hutsemékers & Lamy (2001) and Hutsemékers et al (2005) have reported alignments of quasar optical linear polarization vectors extending over cosmological-scale regions of the Universe
A question arises about how and how much our results are sensitive to the part of the sample that corresponds to the lines of sight for which only low signal-to-noise ratio (S/N) data are available for the Galactic thermal dust polarized emission
The result obtained in the previous subsections show that, based on our contamination criterion, Galactic interstellar medium (ISM) contamination is not detected at the two sigma level for about 70 percent of the quasar optical polarization sample presented by Hutsemékers et al (2005)
Summary
Hutsemékers (1998), Hutsemékers & Lamy (2001) and Hutsemékers et al (2005) have reported alignments of quasar optical linear polarization vectors extending over cosmological-scale regions of the Universe (see Jain et al 2004; Pelgrims & Cudell 2014; Hutsemékers et al 2014; Pelgrims & Hutsemékers 2015, 2016; Pelgrims 2016 for a recent review). Our aim is to provide independently and with up-to-date data sets a new estimate of the degree of contamination of the quasar optical polarization sample by the Galactic dust and to test further the possibility following which Galactic dust could be at the origin of the reported alignments. For this purpose, we make use of the diffuse thermal dust polarized emission measured by the Planck satellite at 353 GHz (Planck Collaboration Int. XIX 2015).
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