Calibrating the Cepheid period-luminosity relation from the infrared surface brightness technique

Storm, J.; Gieren, W.; Fouqué, P.; Barnes, Thomas G.; Pietrzyński, G.; Nardetto, N.; Weber, M.; Granzer, T.; Strassmeier, K. G.

doi:10.1051/0004-6361/201117155

Cited by 141 publications

(228 citation statements)

References 328 publications

(513 reference statements)

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“…However, several researchers suggested that the p-factor actually does depend on the period of the pulsator (see e.g. Barnes 2009;Laney & Joner 2009;Storm et al 2011a;Nardetto et al 2014, and references therein), hence, for example, different p-factor values should be used for BL Her and W Wir stars. Given the uncertainties on the projection factor discussed above, in the following we will adopt the HST -based distance for κ Pav, and the zero point of the different P L, P W and P LC relations will be estimated including or not the BW-based distances for SW Tau and V533 Cen.…”

Section: Absolute Calibration Of P L P Lc and P W Relationsmentioning

confidence: 99%

The VMC Survey – XIII. Type II Cepheids in the Large Magellanic Cloud★

Ripepi

Moretti

Marconi

et al. 2014

Monthly Notices of the Royal Astronomical Society

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The VISTA survey of the Magellanic Clouds System (VMC) is collecting deep K s -band time-series photometry of the pulsating variable stars hosted in the system formed by the two Magellanic Clouds and the Bridge connecting them. In this paper we have analysed a sample of 130 Large Magellanic Cloud (LMC) Type II Cepheids (T2CEPs) found in tiles with complete or near complete VMC observations for which identification and optical magnitudes were obtained from the OGLE III survey. We present J and K s light curves for all 130 pulsators, including 41 BL Her, 62 W Vir (12 pW Vir) and 27 RV Tau variables. We complement our near-infrared photometry with the V magnitudes from the OGLE III survey, allowing us to build a variety of PeriodLuminosity (P L), Period-Luminosity-Colour (P LC) and Period-Wesenheit (P W ) relationships, including any combination of the V, J, K s filters and valid for BL Her and W Vir classes. These relationships were calibrated in terms of the LMC distance modulus, while an independent absolute calibration of the P L(K s ) and the P W (K s , V ) was derived on the basis of distances obtained from Hubble Space T elescope parallaxes and Baade-Wesselink technique. When applied to the LMC and to the Galactic Globular Clusters hosting T2CEPs, these relations seem to show that: 1) the two population II standard candles RR Lyrae and T2CEPs give results in excellent agreement with each other; 2) there is a discrepancy of ∼0.1 mag between population II standard candles and Classical Cepheids when the distances are gauged in a similar way for all the quoted pulsators. However, given the uncertainties, this discrepancy is within the formal 1σ uncertainties.

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Section: Absolute Calibration Of P L P Lc and P W Relationsmentioning

confidence: 99%

The VMC Survey – XIII. Type II Cepheids in the Large Magellanic Cloud★

Ripepi

Moretti

Marconi

et al. 2014

Monthly Notices of the Royal Astronomical Society

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“…A well-sampled calibration featuring long-period Cepheids is desirable, as remote extragalactic Cepheids observed using HST/LBT typically exhibit periods greater than 10 days (Shappee & Stanek 2011;Gerke et al 2011), as their shorter-period counterparts are fainter. A well-sampled long-period cluster Cepheid calibration would likewise foster stronger constraints on the p-factor, which is used to establish IRSB distances (Gieren et al 2005b;Storm et al 2011;Ngeow et al 2012;Joner & Laney 2012;Neilson et al 2012b). A multi-object fiber-fed spectrograph can survey numerous stars surrounding long-period Cepheids, and automated methods can classify the resulting sample and establish spectroscopic parallaxes (Manteiga et al 2009;Mugnes & Robert 2013).…”

Section: Conclusion and Future Researchmentioning

confidence: 99%

Anchors for the cosmic distance scale: the Cepheid QZ Normae in the open cluster NGC 6067

Majaess¹,

Sturch

Bidin

et al. 2013

Astrophys Space Sci

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Cepheids are key to establishing the cosmic distance scale. Therefore it's important to assess the viability of QZ Nor, V340 Nor, and GU Nor as calibrators for Leavitt's law via their purported membership in the open cluster NGC 6067. The following suite of evidence confirms that QZ Nor and V340 Nor are members of NGC 6067, whereas GU Nor likely lies in the foreground: (i) existing radial velocities for QZ Nor and V340 Nor agree with that established for the cluster (−39.4 ± 0.2(σx) ± 1.2(σ) km/s) to within 1 km/s, whereas GU Nor exhibits a markedly smaller value; (ii) a steep velocity-distance gradient characterizes the sight-line toward NGC 6067, thus implying that objects sharing common velocities are nearly equidistant; (iii) a radial profile constructed for NGC 6067 indicates that QZ Nor is within the cluster bounds, despite being 20 ′ from the cluster center; (iv) new BV JH photometry for NGC 6067 confirms the cluster lies d = 1.75 ± 0.10 kpc distant, a result that matches Wesenheit distances computed for QZ Nor/V340 Nor using the Benedict et al. (2007, HST parallaxes) calibration. QZ Nor is a cluster Cepheid that should be employed as a calibrator for the cosmic distance scale.

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“…The fourth case is the LMC+HST period-projection factor relation from Storm et al (2011a,b), though we could also include results from Mérand et al (2005), Groenewegen (2007) and Ngeow et al (2012). The LMC+HST Pp relation from Storm et al (2011a) has a slope measured from LMC Cepheids while the zero-point is measured from Galactic Cepheids. Our results appear to agree with the Nardetto et al (2009) relation, but not the observed relation, verifying that limb-darkening does not explain the difference between the observed and theoretical relations, hence we must consider different phenomena to explain the difference between the relations from Nardetto et al (2009) and Storm et al (2011a).…”

Section: Period-projection Factor Relationmentioning

confidence: 99%

“…Storm et al (2011b) found similar results for LMC Cepheids, also using the infrared surface brightness technique, for different observations. Furthermore, Storm et al (2011a) used observations of Galactic Cepheids with known HST parallaxes to verify the steeper period dependence of the projection factor; we refer to this type of analysis as the LMC-HST Pp relation and p-factor. Mérand et al (2005) and Groenewegen (2007) measured the p-factor for Galactic Cepheids with known distances using interferometric and spectroscopic observations, both authors measured p = 1.27.…”

Section: Introductionmentioning

confidence: 99%

Cepheid limb darkening, angular diameter corrections, and projection factor from static spherical model stellar atmospheres

Neilson

Nardetto

Ngeow

et al. 2012

A&A

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Context. One challenge for measuring the Hubble constant using classical Cepheids is the calibration of the Leavitt law or periodluminosity relationship. The Baade-Wesselink method for distance determination to Cepheids relies on the ratio of the measured radial velocity and pulsation velocity, the so-called projection factor and the ability to measure the stellar angular diameters. Aims. We use spherically-symmetric model stellar atmospheres to explore the dependence of the p-factor and angular diameter corrections as a function of pulsation period. Methods. Intensity profiles are computed from a grid of plane-parallel and spherically-symmetric model stellar atmospheres using the SAtlas code. Projection factors and angular diameter corrections are determined from these intensity profiles and compared to previous results. Results. Our predicted geometric period-projection factor relation including previously published state-of-the-art hydrodynamical predictions is not with recent observational constraints. We suggest a number of potential resolutions to this discrepancy. The model atmosphere geometry also affects predictions for angular diameter corrections used to interpret interferometric observations, suggesting corrections used in the past underestimated Cepheid angular diameters by 3-5%. Conclusions. While spherically-symmetric hydrostatic model atmospheres cannot resolve differences between projection factors from theory and observations, they do help constrain underlying physics that must be included, including chromospheres and mass loss. The models also predict more physically-based limb-darkening corrections for interferometric observations.

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Calibrating the Cepheid period-luminosity relation from the infrared surface brightness technique

Cited by 141 publications

References 328 publications

The VMC Survey – XIII. Type II Cepheids in the Large Magellanic Cloud★

The VMC Survey – XIII. Type II Cepheids in the Large Magellanic Cloud★

Anchors for the cosmic distance scale: the Cepheid QZ Normae in the open cluster NGC 6067

Cepheid limb darkening, angular diameter corrections, and projection factor from static spherical model stellar atmospheres

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