English

A new low-mass eclipsing binary: NSVS 02502726

Solar and Stellar Astrophysics 2009-11-13 v1

Abstract

We present optical spectroscopy and extensive RIRI differential photometry of the double-lined eclipsing binary NSVS 02502726 (2MASS J08441103+5423473). Simultaneous solution of two-band light curves and radial velocities permits determination of precise emprical masses and radii for both components of the system. The analysis indicates that the primary and secondary components of NSVS 02502726 are in a circular orbit with 0.56-day orbital period and have stellar masses of M1_1=0.714±\pm0.019 \Msun, and M2_2=0.347±\pm0.012 \Msun. Both of the components have large radii, being R1_1=0.67±\pm0.01 \Rsun, and R2_2=0.76±\pm0.01 \Rsun. The principal parameters of the mass and radius of the component stars are found with an accuracy of 3% and 1%, respectively. The secondary component's radius is significantly larger than model predictions for its mass, similar to what is seen in almost all of the other well-studied low-mass stars which belong to double-lined eclipsing binaries. Strong Hα_{\alpha} emission cores and considerable distortion at out-of-eclipse light curve in both RR and II bandpasses, presumably due to dark spots on both stars, have been taken as an evidence of strong stellar activity. The distance to system was calculated as 173±\pm8 pc from the BVRIJHKBVRIJHK magnitudes. The absolute parameters of the components indicate that both components are close to the zero-age main-sequence. Comparison with current stellar evolution models gives an age of 126 ±\pm30 Myr, indicating the stars are in the final stages of pre-main-sequence contraction.

Keywords

Cite

@article{arxiv.0902.3327,
  title  = {A new low-mass eclipsing binary: NSVS 02502726},
  author = {O. Cakirli and C. Ibanoglu and C. Gungor},
  journal= {arXiv preprint arXiv:0902.3327},
  year   = {2009}
}

Comments

15 pages, 7 figures, accepted for publication in New Astronomy

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