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Related papers: Exploring the M-dwarf Luminosity--Temperature--Rad…

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Measuring fundamental stellar parameters is key to fully comprehending the evolution of stars. However, current theoretical models over-predict effective temperatures, and under-predict radii, compared to observations of K and M dwarfs…

Solar and Stellar Astrophysics · Physics 2024-06-04 Rocio Kiman , Timothy D. Brandt , Jacqueline K. Faherty , Mark Popinchalk

We report on 13 new high-precision measurements of stellar diameters for low-mass dwarfs obtained by means of near-infrared long-baseline interferometry with PIONIER at the Very Large Telescope Interferometer. Together with accurate…

The observed radii of M dwarfs in eclipsing binaries exceed predicted radii by ~ 5%. To investigate this anomaly, the structure of low-mass stars irradiated by a close companion is considered. Irradiation modifies the surface boundary…

Solar and Stellar Astrophysics · Physics 2017-05-24 L. B. Lucy

Statistical assessment of stellar parameters enables validation and improvements in theoretical models. We compiled a sample of 85 transiting stellar and substellar companions, with masses ranging from $\sim$13-100 $M_\mathrm{Jup}$. We…

Solar and Stellar Astrophysics · Physics 2026-05-25 Aarushi Mehrotra , Chih-Chun Hsu , Jason J. Wang , Christopher A. Theissen , Adam J. Burgasser

M dwarfs are prime targets in the hunt for habitable worlds around other stars. This is due to their abundance as well as their small radii and low masses and temperatures, which facilitate the detection of temperate, rocky planets in orbit…

Precise measurements of eclipsing binary parameters and statistical studies of young clusters have suggested that some magnetically active low-mass dwarfs possess radii inflated by $\sim$5-15% relative to theoretical expectations. If true,…

Solar and Stellar Astrophysics · Physics 2017-02-15 Garrett Somers , Keivan G. Stassun

Precise stellar masses and radii can be determined using asteroseismology, but their accuracy must be tested against independent estimates. Using radii derived from Gaia DR2 parallaxes, we test the accuracy of asteroseismic radii for a…

Solar and Stellar Astrophysics · Physics 2018-09-26 Christian L. Sahlholdt , Victor Silva Aguirre

Rotation periods obtained with the Kepler satellite have been combined with precise measurements of projected rotation velocity from the WIYN 3.5-m telescope to determine the distribution of projected radii for several hundred low-mass…

Solar and Stellar Astrophysics · Physics 2018-03-14 R. J. Jackson , Constantine P. Deliyannis , R. D. Jeffries

Main sequence, fully-convective M dwarfs in eclipsing binaries are observed to be larger than stellar evolutionary models predict by as much as $10-15\%$. A proposed explanation for this discrepancy involves effects from strong magnetic…

Solar and Stellar Astrophysics · Physics 2018-05-16 Aurora Y. Kesseli , Philip S. Muirhead , Andrew W. Mann , Greg Mace

M subdwarfs are low-metallicity M dwarfs that typically inhabit the halo population of the Galaxy. Metallicity controls the opacity of stellar atmospheres; in metal poor stars, hydrostatic equilibrium is reached at a smaller radius, leading…

We present a spectroscopic analysis of a sample of 48 M dwarf stars ($0.2 M_{\odot}< M < 0.6 M_{\odot}$) from the Hyades open cluster using high-resolution H-band spectra from the SDSS/APOGEE survey. Our methodology adopts spectrum…

We present interferometric diameter measurements of 21 K- and M- dwarfs made with the CHARA Array. This sample is enhanced by literature radii measurements to form a data set of 33 K-M dwarfs with diameters measured to better than 5%. For…

We empirically determine effective temperatures and bolometric luminosities for a large sample of nearby M dwarfs, for which high accuracy optical and infrared photometry is available. We introduce a new technique which exploits the flux…

Astrophysics · Physics 2009-11-13 L. Casagrande , C. Flynn , M. Bessell

Precise and accurate parameters for late-type (late K and M) dwarf stars are important for characterization of any orbiting planets, but such determinations have been hampered by these stars' complex spectra and dissimilarity to the Sun. We…

Solar and Stellar Astrophysics · Physics 2015-06-03 Andrew W. Mann , Gregory A. Feiden , Eric Gaidos , Tabetha Boyajian , Kaspar von Braun

We present spectroscopic determinations of the effective temperatures, surface gravities and metallicities for 21 M-dwarfs observed at high-resolution (R $\sim$ 22,500) in the \textit{H}-band as part of the SDSS-IV APOGEE survey. The…

A long-standing issue in the theory of low mass stars is the discrepancy between predicted and observed radii and effective temperatures. In spite of the increasing availability of very precise radius determinations from eclipsing binaries…

Solar and Stellar Astrophysics · Physics 2015-06-17 F. Spada , P. Demarque , Y. -C. Kim , A. Sills

Knowledge of stellar atmospheric parameters ($T_{\rm eff}$, $\log{g}$, [Fe/H]) of M dwarfs can be used to constrain both theoretical stellar models and Galactic chemical evolutionary models, and guide exoplanet searches, but their…

Solar and Stellar Astrophysics · Physics 2023-02-22 C. Duque-Arribas , D. Montes , H. M. Tabernero , J. A. Caballero , J. Gorgas , E. Marfil

Active, low-mass stars are widely observed to have radii that are larger than predicted by standard stellar models. Proposed mechanisms for this radius inflation generally involve stellar magnetism, either in the form of added pressure…

Solar and Stellar Astrophysics · Physics 2025-06-25 Lyra Cao , Keivan G. Stassun

M-dwarf stars provide very favourable conditions to find habitable worlds beyond our solar system. The estimation of the fundamental parameters of the transiting exoplanets rely on the accuracy of the theoretical predictions for radius and…

Solar and Stellar Astrophysics · Physics 2019-06-12 Santi Cassisi , Maurizio Salaris

The second Gaia data release, DR2, contained radial velocities of stars with effective temperatures up to Teff = 6900 K. The third data release, Gaia DR3, extends this up to Teff = 14,500 K. We derive the radial velocities for hot stars…

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