Spectroscopy,<i>MOST</i>photometry, and interferometry of MWC 314: is it an LBV or an interacting binary?

Richardson, Noel D.; Moffat, A. F. J.; Maltais-Tariant, Raphaël; Pablo, H.; Gies, Douglas R.; Saio, Hideyuki; St-Louis, N.; Schaefer, Gail H.; Мирошниченко, А. С.; Farrington, C.; Aldoretta, Emily J.; Artigau, Étienne; Boyajian, Tabetha S.; Gordon, Kathryn D.; Jones, Jeremy; Matson, Rachel A.; McAlister, Harold A.; O’Brien, D. P.; Raghavan, Deepak; Ramiaramanantsoa, Tahina; Ridgway, Stephen T.; Scott, N.; Sturmann, J.; Sturmann, L.; Brummelaar, T. ten; Thomas, Joshua D.; Turner, N.; Vargas, N.; Zharikov, S. V.; Matthews, J. M.; Cameron, Chris; Guenther, D. B.; Kuschnig, R.; Rowe, Jason F.; Ruciński, S. M.; Sasselov, Dimitar; Weiß, W. W.

doi:10.1093/mnras/stv2291

Cited by 14 publications

(20 citation statements)

References 64 publications

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“…A second model, involving boosting the eccentricity of an orbit during mass transfer, showed the primary mass of MWC 314 was ∼ 14M⊙. The pulsational behavior of MWC 314 that was observed with MOST confirmed the low-mass nature of this system (Richardson et al 2016a). Similar short-period (∼ 6 hr) pulsations were observed in the HD 5980 system by Sterken & Breysacher (1997) after its LBV-like eruption, but the close orbit likely changes the observed stellar structure of these stars compared to other LBV stars.…”

Section: Discussionmentioning

confidence: 81%

“…The only similar star that has shown stable pulsations is the LBV candidate MWC 314 (Richardson et al 2016a), which exhibits two pulsations with periods close to 1 d. This star has a spectrum reminiscent of the LBVs like η Carinae, but many of the emission lines are double-peaked, forming in a circumbinary disk. In the case of MWC 314, Richardson et al (2016a) found that the binary was not a massive LBV as previously suggested by Muratorio et al (2008) and Lobel et al (2013), but rather was the evolutionary byproduct of a lower-mass binary interaction. The system was a close spectroscopic twin to the binary HDE 326823 (Richardson et al 2011) where mass transfer has hidden the mass gainer behind a thick accretion torus while leaving the lower mass donor star visible.…”

Section: Discussionmentioning

confidence: 99%

“…A spectrum of η Car taken near apastron fromRichardson et al (2016a) is shown with the BRITE-Constellation red filter transmission curve. The strong Hα profile dominates this portion of the spectrum, which is why the y-axis is shown in logarithmic units.…”

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confidence: 99%

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BRITE-Constellation reveals evidence for pulsations in the enigmatic binary η Carinae

Richardson

Pablo

Sterken

et al. 2018

Monthly Notices of the Royal Astronomical Society

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η Car is a massive, eccentric binary with a rich observational history. We obtained the first high-cadence, high-precision light curves with the BRITE-Constellation nanosatellites over 6 months in 2016 and 6 months in 2017. The light curve is contaminated by several sources including the Homunculus nebula and neighboring stars, including the eclipsing binary CPD −59 • 2628. However, we found two coherent oscillations in the light curve. These may represent pulsations that are not yet understood but we postulate that they are related to tidally excited oscillations of η Car's primary star, and would be similar to those detected in lower-mass eccentric binaries. In particular, one frequency was previously detected by van Genderen et al. and Sterken et al. through the time period of 1974 to 1995 through timing measurements of photometric maxima. Thus, this frequency seems to have been detected for nearly four decades, indicating that it has been stable in frequency over this time span. These pulsations could help provide the first direct constraints on the fundamental parameters of the primary star if confirmed and refined with future observations.

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Section: Discussionmentioning

confidence: 81%

Section: Discussionmentioning

confidence: 99%

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BRITE-Constellation reveals evidence for pulsations in the enigmatic binary η Carinae

Richardson

Pablo

Sterken

et al. 2018

Monthly Notices of the Royal Astronomical Society

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“…An N-body code, box_tree [8,9,28,35,[51][52][53][54], was employed to model the dynamics of the dust system. Particles are trapped within a parabolic potential well in the horizontal direction and by a linear electric field and gravity in the vertical direction (see Eq.…”

Section: Model and Methodsmentioning

confidence: 99%

Mode couplings and resonance instabilities in dust clusters

et al. 2013

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The normal modes for three to seven particle two-dimensional (2D) dust clusters in a complex plasma are investigated using an N-body simulation. The ion wakefield downstream of each particle is shown to induce coupling between horizontal and vertical modes. The rules of mode coupling are investigated by classifying the mode eigenvectors employing the Bessel and trigonometric functions indexed by order integers (m, n). It is shown that coupling only occurs between two modes with the same m and that horizontal modes having a higher shear contribution exhibit weaker coupling. Three types of resonances are shown to occur when two coupled modes have the same frequency. Discrete instabilities caused by both the first and third type of resonances are verified and instabilities caused by the third type of resonance are found to induce melting. The melting procedure is observed to go through a two-step process with the solid-liquid transition closely obeying the Lindemann criterion.

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“…Their components at periastron are separated by only a few stellar radii, giving rise to significant tidal forces that distort stellar surfaces. A total of 28 giants in heartbeat stars have been reported to date (Nicholls & Wood 2012;Gaulme et al 2013Gaulme et al , 2014Beck et al 2014;Richardson et al 2016); of these, there are 9 for which the authors developed a full model (Nicholls & Wood 2012;Beck et al 2014;Richardson et al 2016), all of them under the constant volume…”

Section: Volume Conservation In Eccentric Orbitsmentioning

confidence: 99%

Physics of Eclipsing Binaries. Ii. Toward the Increased Model Fidelity

Prša

Conroy

Horvat

et al. 2016

ApJS

294

214

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The precision of photometric and spectroscopic observations has been systematically improved in the last decade, mostly thanks to space-borne photometric missions and ground-based spectrographs dedicated to finding exoplanets. The field of eclipsing binary stars strongly benefited from this development. Eclipsing binaries serve as critical tools for determining fundamental stellar properties (masses, radii, temperatures and luminosities), yet the models are not capable of reproducing observed data well either because of the missing physics or because of insufficient precision. This led to a predicament where radiative and dynamical effects, insofar buried in noise, started showing up routinely in the data, but were not accounted for in the models. PHOEBE (PHysics Of Eclipsing BinariEs;http://phoebe-project.org) is an open source modeling code for computing theoretical light and radial velocity curves that addresses both problems by incorporating missing physics and by increasing the computational fidelity. In particular, we discuss triangulation as a superior surface discretization algorithm, meshing of rotating single stars, light time travel effect, advanced phase computation, volume conservation in eccentric orbits, and improved computation of local intensity across the stellar surfaces that includes photon-weighted mode, enhanced limb darkening treatment, better reflection treatment and Doppler boosting. Here we present the concepts on which PHOEBE is built on and proofs of concept that demonstrate the increased model fidelity.

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Spectroscopy,MOSTphotometry, and interferometry of MWC 314: is it an LBV or an interacting binary?

Cited by 14 publications

References 64 publications

BRITE-Constellation reveals evidence for pulsations in the enigmatic binary η Carinae

BRITE-Constellation reveals evidence for pulsations in the enigmatic binary η Carinae

Mode couplings and resonance instabilities in dust clusters

Physics of Eclipsing Binaries. Ii. Toward the Increased Model Fidelity

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