Molecfit: A general tool for telluric absorption correction

Kausch, W.; Noll, Stefan; Smette, A.; Kimeswenger, S.; Barden, M.; Szyszka, C.; Jones, Amy; Sana, H.; Horst, H.; Kerber, F.

doi:10.1051/0004-6361/201423909

Cited by 461 publications

(408 citation statements)

References 13 publications

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“…For the telluric correction of the NIR arm data, we use the telluric calibration package MOLECFIT (Kausch et al 2015;Smette et al 2015). First, we fit an atmospheric model to the telluric standard stars, to determine the concentrations of H 2 O, CO 2 , CH 4 , and O 2 .…”

Section: X-shooter Spectra Of Gx 339−4mentioning

confidence: 99%

The Mass Function of GX 339–4 from Spectroscopic Observations of Its Donor Star^*

Heida

Jonker

Torres

et al. 2017

ApJ

113

108

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We obtained 16 VLT/X-shooter observations of GX 339−4 in quiescence during the period 2016 May-September and detected absorption lines from the donor star in its NIR spectrum. This allows us to measure the radial velocity curve and projected rotational velocity of the donor for the first time. We confirm the 1.76 day orbital period and we find that K 2 = 219±3 km s −1 , γ = 26±2 km s −1 , and v i sin = 64±8 km s −1 . From these values we compute a mass function f (M) = 1.91±0.08  M , a factor ∼3 lower than previously reported, and a mass ratio q = 0.18±0.05. We confirm the donor is a K-type star and estimate that it contributes~-4% 50% of the light in the J-and H-bands. We constrain the binary inclination to 37°< < i 78°and the black hole (BH) mass to. GX 339−4 may therefore be the first BH to fall in the "mass-gap" of 2-5 M e .

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Section: X-shooter Spectra Of Gx 339−4mentioning

confidence: 99%

The Mass Function of GX 339–4 from Spectroscopic Observations of Its Donor Star^*

Heida

Jonker

Torres

et al. 2017

ApJ

113

108

View full text Add to dashboard Cite

show abstract

“…The V magnitude is only shown for data points used in the colour analysis, with phases between −10 and +35 days. The corrected colour can be obtained as ( have used the line-modelling software Molecfit Kausch et al 2015) to correct for telluric features in relevant parts of the spectra.…”

Section: High-resolution Spectroscopymentioning

confidence: 99%

Time-varying sodium absorption in the Type Ia supernova 2013gh

Ferretti

Amanullah

Goobar

et al. 2016

A&A

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Context. Temporal variability of narrow absorption lines in high-resolution spectra of Type Ia supernovae (SNe Ia) is studied to search for circumstellar matter. Time series which resolve the profiles of absorption lines such as Na I D or Ca II H&K are expected to reveal variations due to photoionisation and subsequent recombination of the gases. The presence, composition, and geometry of circumstellar matter may hint at the elusive progenitor system of SNe Ia and could also affect the observed reddening law. Aims. To date, there are few known cases of time-varying Na I D absorption in SNe Ia, all of which occurred during relatively late phases of the supernova (SN) evolution. Photoionisation, however, is predicted to occur during the early phases of SNe Ia, when the supernovae peak in the ultraviolet. We attempt, therefore, to observe early-time absorption-line variations by obtaining high-resolution spectra of SNe before maximum light. Methods. We have obtained photometry and high-resolution spectroscopy of SNe Ia 2013gh and iPTF 13dge, to search for absorptionline variations. Furthermore, we study interstellar absorption features in relation to the observed photometric colours of the SNe. Results. Both SNe display deep Na I D and Ca II H&K absorption features. Furthermore, small but significant variations are detected in a feature of the Na I D profile of SN 2013gh. The variations are consistent with either geometric effects of rapidly moving or patchy gas clouds or photoionisation of Na I gas at R ≈ 10 19 cm from the explosion. Conclusions. Our analysis indicates that it is necessary to focus on early phases to detect photoionisation effects of gases in the circumstellar medium of SNe Ia. Different absorbers such as Na I and Ca II can be used to probe for matter at different distances from the SNe. The nondetection of variations during early phases makes it possible to put limits on the abundance of the species at those distances.

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“…This spectral range lies very close to the O 2 absorption band starting at 6275 Å, and numerous telluric lines are present in this spectral region. We constructed a sample telluric absorption spectrum using the ESO molecfit package (Kausch et al 2014) and examined the positions of the strongest lines in the spectral region considered. The Si II lines were modeled as rotationally broadened absorption lines with v sin(i) = 138 km s −1 Table 1.…”

Section: Radial Velocity Curve: Primarymentioning

confidence: 99%

TheαCrB binary system: A new radial velocity curve, apsidal motion, and the alignment of rotation and orbit axes

Schmitt

Schröder

Rauw

et al. 2016

A&A

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We present a new radial velocity curve for the two components of the eclipsing spectroscopic binary α CrB. This binary consists of two main-sequence stars of types A and G in a 17.3599-day orbit, according to the data from our robotic TIGRE facility that is located in Guanajuato, Mexico. We used a high-resolution solar spectrum to determine the radial velocities of the weak secondary component by cross-correlation and wavelength referencing with telluric lines for the strongly rotationally broadened primary lines (v sin(i) = 138 km s −1 ) to obtain radial velocities with an accuracy of a few hundred m/s. We combined our new RV data with older measurements, dating back to 1908 in the case of the primary, to search for evidence of apsidal motion. We find an apsidal motion period between 6600 and 10 600 yr. This value is consistent with the available data for both the primary and secondary and is also consistent with the assumption that the system has aligned orbit and rotation axes.

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Molecfit: A general tool for telluric absorption correction

Cited by 461 publications

References 13 publications

The Mass Function of GX 339–4 from Spectroscopic Observations of Its Donor Star^*

The Mass Function of GX 339–4 from Spectroscopic Observations of Its Donor Star^*

Time-varying sodium absorption in the Type Ia supernova 2013gh

TheαCrB binary system: A new radial velocity curve, apsidal motion, and the alignment of rotation and orbit axes

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Molecfit: A general tool for telluric absorption correction

Cited by 461 publications

References 13 publications

The Mass Function of GX 339–4 from Spectroscopic Observations of Its Donor Star*

The Mass Function of GX 339–4 from Spectroscopic Observations of Its Donor Star*

Time-varying sodium absorption in the Type Ia supernova 2013gh

TheαCrB binary system: A new radial velocity curve, apsidal motion, and the alignment of rotation and orbit axes

Contact Info

Product

Resources

About

The Mass Function of GX 339–4 from Spectroscopic Observations of Its Donor Star^*

The Mass Function of GX 339–4 from Spectroscopic Observations of Its Donor Star^*