Using a new grism at the Keck Interferometer, we obtained spectrally dispersed (R ~ 230) interferometric measurements of the Mira star R Vir. These data show that the measured radius of the emission varies substantially from 2.0-2.4 microns. Simple models can reproduce these wavelength-dependent variations using extended molecular layers, which absorb stellar radiation and re-emit it at longer wavelengths. Because we observe spectral regions with and without substantial molecular opacity, we determine the stellar photospheric radius, uncontaminated by molecular emission. We infer that most of the molecular opacity arises at approximately twice the radius of the stellar photosphere
Infrared interferometry of supergiant and Mira stars has recently been reinterpreted as revealing th...
Context. High angular resolution (sub)millimetre observations of asymptotic giant branch (AGB) stars...
We present new measurements of the millimeter wavelength continuum emission from the long period var...
Using a new grism at the Keck Interferometer, we obtained spectrally dispersed (R ~ 230) interferome...
The angular diameters of six oxygen-rich Mira-type long-period variables have been measured at vario...
International audienceWe have observed Mira stars with the FLUOR beamcombiner on the IOTA interferom...
We present results from a spectro-interferometric study of the Miras o Cet, R Leo, and W Hya obtaine...
Aims. We investigate the structure and shape of the photospheric and molecular layers of the atmosph...
Context. Dynamic model atmospheres of Mira stars predict variabilities in the photospheric radius an...
The angular diameters of six oxygen-rich Mira-type long-period variables have been measured at vario...
International audienceThe angular diameters of six oxygen-rich Mira-type long-period variables have ...
Context. Dynamic model atmospheres of Mira stars predict variabilities in the photospheric radius an...
We present K-band observations of five Mira stars with the IOTA interferometer. The interferograms w...
Aims. We investigate the structure and shape of the photospheric and molecular layers of the atmosph...
Mira (o Ceti), the prototypical Mira variable, due to its proximity (D = 128⁺¹⁹₋₁₄ pc, van Leeuwen e...
Infrared interferometry of supergiant and Mira stars has recently been reinterpreted as revealing th...
Context. High angular resolution (sub)millimetre observations of asymptotic giant branch (AGB) stars...
We present new measurements of the millimeter wavelength continuum emission from the long period var...
Using a new grism at the Keck Interferometer, we obtained spectrally dispersed (R ~ 230) interferome...
The angular diameters of six oxygen-rich Mira-type long-period variables have been measured at vario...
International audienceWe have observed Mira stars with the FLUOR beamcombiner on the IOTA interferom...
We present results from a spectro-interferometric study of the Miras o Cet, R Leo, and W Hya obtaine...
Aims. We investigate the structure and shape of the photospheric and molecular layers of the atmosph...
Context. Dynamic model atmospheres of Mira stars predict variabilities in the photospheric radius an...
The angular diameters of six oxygen-rich Mira-type long-period variables have been measured at vario...
International audienceThe angular diameters of six oxygen-rich Mira-type long-period variables have ...
Context. Dynamic model atmospheres of Mira stars predict variabilities in the photospheric radius an...
We present K-band observations of five Mira stars with the IOTA interferometer. The interferograms w...
Aims. We investigate the structure and shape of the photospheric and molecular layers of the atmosph...
Mira (o Ceti), the prototypical Mira variable, due to its proximity (D = 128⁺¹⁹₋₁₄ pc, van Leeuwen e...
Infrared interferometry of supergiant and Mira stars has recently been reinterpreted as revealing th...
Context. High angular resolution (sub)millimetre observations of asymptotic giant branch (AGB) stars...
We present new measurements of the millimeter wavelength continuum emission from the long period var...