Fluctuations of the intergalactic ionization field at redshift<i>z</i>~ 2

Agafonova, I. I.; Levshakov, S. A.; Reimers, D.; Hagen, H. J.; Tytler, David

doi:10.1051/0004-6361/201220818

Cited by 6 publications

(7 citation statements)

References 65 publications

(83 reference statements)

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“…The shortcomings of the ThAr wavelength calibration of quasar spectra taken with VLT/UVES have already been discussed by a number of authors (Chand et al 2006;Levshakov et al 2006;Molaro et al 2008;Thompson et al 2009a;Whitmore et al 2010;Agafonova et al 2011;Wendt & Molaro 2011;Rahmani et al 2012;Agafonova et al 2013). The availability of 19 independent spectra taken over a 3 year period allows us to investigate the presence of any velocity drift as a function of wavelength in our spectra and study its evolution with time before we embark on ∆µ/µ measurements.…”

Section: Systematic Uncertainties In the Uves Wavelength Scalementioning

confidence: 94%

The UVES large program for testing fundamental physics – II. Constraints on a change in μ towards quasar HE 0027−1836★

Rahmani

Wendt

Srianand

et al. 2013

Monthly Notices of the Royal Astronomical Society

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101

125

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We present an accurate analysis of the H 2 absorption lines from the z abs ∼ 2.4018 damped Lyαsystem towards HE 0027−1836 observed with the Very Large Telescope Ultraviolet and Visual Echelle Spectrograph (VLT/UVES) as a part of the European Southern Observatory Large Programme "The UVES large programme for testing fundamental physics" to constrain the variation of proton-to-electron mass ratio, µ ≡ m p /m e . We perform cross-correlation analysis between 19 individual exposures taken over three years and the combined spectrum to check the wavelength calibration stability. We notice the presence of a possible wavelength dependent velocity drift especially in the data taken in 2012. We use available asteroids spectra taken with UVES close to our observations to confirm and quantify this effect. We consider single and two component Voigt profiles to model the observed H 2 absorption profiles. We use both linear regression analysis and Voigt profile fitting where ∆µ/µ is explicitly considered as an additional fitting parameter. The two component model is marginally favored by the statistical indicators and we get ∆µ/µ = −2.5 ± 8.1 stat ± 6.2 sys ppm. When we apply the correction to the wavelength dependent velocity drift we find ∆µ/µ = −7.6 ± 8.1 stat ± 6.3 sys ppm. It will be important to check the extent to which the velocity drift we notice in this study is present in UVES data used for previous ∆µ/µ measurements.

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Section: Systematic Uncertainties In the Uves Wavelength Scalementioning

confidence: 94%

The UVES large program for testing fundamental physics – II. Constraints on a change in μ towards quasar HE 0027−1836★

Rahmani

Wendt

Srianand

et al. 2013

Monthly Notices of the Royal Astronomical Society

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101

125

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“…(We discuss this possible bias in detail in Appendix A.) Recently, significant η variations have been seen in the post-reionization epoch by looking at metal-line systems (Agafonova et al 2013). This debate aside, there is no question that large η fluctuations are expected prior to the completion of helium reionization, due to the patchy nature of the process and the rarity of the bright quasars responsible (e.g., Fardal et al 1998;Furlanetto 2009;Compostella et al 2013).…”

Section: Methods For Determining ηmentioning

confidence: 99%

HUBBLE SPACE TELESCOPE/COSMIC ORIGINS SPECTROGRAPH OBSERVATIONS OF THE QUASAR Q0302–003: PROBING THE He II REIONIZATION EPOCH AND QSO PROXIMITY EFFECTS

Syphers

Shull

2014

ApJ

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Q0302−003 (z = 3.2860 ± 0.0005) was the first quasar discovered that showed a He II Gunn-Peterson trough, a sign of incomplete helium reionization at z 2.9. We present its HST/Cosmic Origins Spectrograph far-UV medium-resolution spectrum, which resolves many spectral features for the first time, allowing study of the quasar itself, the intergalactic medium, and quasar proximity effects. Q0302−003 has a harder intrinsic extreme-UV spectral index than previously claimed, as determined from both a direct fit to the spectrum (yielding α ν ≈ −0.8) and the helium-to-hydrogen ion ratio in the quasar's line-of-sight proximity zone. Intergalactic absorption along this sightline shows that the helium Gunn-Peterson trough is largely black in the range 2.87 < z < 3.20, apart from ionization due to local sources, indicating that helium reionization has not completed at these redshifts. However, we tentatively report a detection of nonzero flux in the high-redshift trough when looking at low-density regions, but zero flux in higher-density regions. This constrains the He II fraction to be about 1% in the low-density IGM and possibly a factor of a few higher in the IGM as a whole, suggesting helium reionization has progressed substantially by z ∼ 3.1. The Gunn-Peterson trough recovers to a He II Lyα forest at z < 2.87. We confirm a transmission feature due to the ionization zone around a z = 3.05 quasar just off the sightline, and resolve the feature for the first time. We discover a similar such feature possibly caused by a luminous z = 3.23 quasar further from the sightline, which suggests that this quasar has been luminous for >34 Myr.

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“…At α/α ∼ 10 −5 , the required position accuracy should [12,[42][43][44]. At this level of the systematic errors an estimate of α/α from any individual absorption-line system must be considered as an upper limit but not a 'signal'.…”

Section: Introductionmentioning

confidence: 99%

“…Such a critical relationship between the 'signal' (expected velocity offset ∆v) and the error σ v hampers measuring ∆α/α at the level of ∼ 10 −5 from any absorption system taking into account all imperfections of the spectrograph and the data reduction procedure. Systematic errors exceeding 0.5 km s −1 are known to be typical for the wavelength calibration in both the VLT/UVES and Keck/HIRES spectrographs [12,[42][43][44]. At this level of the systematic errors an estimate of ∆α/α from any individual absorption-line system must be considered as an upper limit but not a 'signal'.…”

Section: Introductionmentioning

confidence: 99%

Microwave and submillimeter molecular transitions and their dependence on fundamental constants

Kozlov

Levshakov

2013

Annalen der Physik

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Microwave and submillimeter molecular transition frequencies between nearly degenerated rotational levels, tunneling transitions, and mixed tunneling-rotational transitions show an extremely high sensitivity to the values of the finestructure constant, α, and the electron-to-proton mass ratio, μ. This review summarizes the theoretical background on quantum-mechanical calculations of the sensitivity coefficients of such transitions to tiny changes in α and μ for a number of molecules which are usually observed in Galactic and extragalactic sources, and discusses the possibility of testing the space-and time-invariance of fundamental constants through comparison between precise laboratory measurements of the molecular rest frequencies and their astronomical counterparts. In particular, diatomic radicals CH, OH, NH + , and a linear polyatomic radical C 3 H in electronic ground state, polyatomic molecules NH 3 , ND 3 , NH 2 D, NHD 2 , H 2 O 2 , H 3 O + , CH 3 OH, and CH 3 NH 2 in their tunneling and tunneling-rotational modes are considered. It is shown that sensitivity coefficients strongly depend on the quantum numbers of the corresponding transitions. This can be used for astrophysical tests of Einstein's Equivalence Principle all over the Universe at an unprecedented level of sensitivity of ∼10 −9 , which is a limit three to two orders of magnitude lower as compared to the current constraints on cosmological variations of α and μ: α/α < 10 −6 , μ/μ < 10 −7 .

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Fluctuations of the intergalactic ionization field at redshiftz~ 2

Cited by 6 publications

References 65 publications

The UVES large program for testing fundamental physics – II. Constraints on a change in μ towards quasar HE 0027−1836★

The UVES large program for testing fundamental physics – II. Constraints on a change in μ towards quasar HE 0027−1836★

HUBBLE SPACE TELESCOPE/COSMIC ORIGINS SPECTROGRAPH OBSERVATIONS OF THE QUASAR Q0302–003: PROBING THE He II REIONIZATION EPOCH AND QSO PROXIMITY EFFECTS

Microwave and submillimeter molecular transitions and their dependence on fundamental constants

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