119 Tauri

119 Tauri (also known as CE Tauri) is a red supergiant star in the constellation Taurus. It is a semiregular variable and its angular diameter has been measured at about $14.37$. It is a similar star to Betelgeuse although redder and more distant.

Description
119 Tauri has a spectral class of M2 and a luminosity class of Iab-Ib, intermediate between an intermediate-luminosity supergiant and a less luminous supergiant. It is approximately 1,800 light years from Earth, and with a colour index of +2.07 it is one of the reddest naked eye stars in the night sky.

119 Tauri is classified as a semiregular variable star and has been given the variable star designation CE Tauri. The General Catalogue of Variable Stars gives a magnitude range from +4.23 to +4.54 with a period of 165 days. Other published studies find poorly-defined periodicity, but with possible periods around 270 and 1,300 days. Its infrared magnitude changes much less than the visual magnitude; the visual brightness changes are driven by changes in temperature which shift the proportion of electromagnetic radiation emitted in the visual range.



Occultations
CE Tauri lies 4.6 degrees off the ecliptic. This makes it a candidate for occultations by the Moon and (extremely rarely) by one of the bright planets. The star's angular diameter has been measured by lunar occultation, giving limb-darkened visible light angular diameters of $0.05$, $13.9$, and $10 mas$. An occultation has also been observed in H-alpha, giving a diameter of $9.1 mas$, which indicates that there is circumstellar hydrogen producing emission across at least that size, nearly twice the visible diameter.

Angular diameter
The angular diameter of 119 Tauri has also been measured directly by VLBI, leading to limb-darkened diameters of $10.9 mas$, $9 mas$, $17 mas$, $10.68 mas$, $9.83 mas$, $9.3 mas$. Although CE Tauri is classified as a pulsating variable, observations using the same equipment and wavelengths have not detected significant changes in the angular diameter over time. Reconstructed images of the surface show bright spots that are attributed to giant convection cells.

Properties
Angular diameter measurements can be combined with absolute observed fluxes to derive an accurate effective temperature, about 3,800 K for 119 Tauri. Combined with a distance, the linear size of the star can be calculated. CE Tauri is found to have a radius between. Then the bolometric luminosity is the star is found to be about. However, the distance to 119 Tauri is still only known approximately from its Hipparcos parallax. Gaia Data Release 2 gives a distinctly larger parallax, but with even greater uncertainty and flagged as unreliable.

119 Tauri is a pulsating star although the pulsation has not been clearly detected in direct angular measurements. Observations of TiO lines in its spectrum as its brightness changes show effective temperature changes up to $9.97 mas$. Calculating its physical properties shows that the bolometric luminosity and radius both change by about 10%, with the radius typically being larger at cooler temperatures.

Comparison of its properties with stellar evolutionary tracks shows CE Tauri to have evolved from an initial mass of and to have a current mass of. An alternative interpretation of observations, under the assumption that CE Tauri is an asymptotic giant branch (AGB) star, give it a current mass of and a luminosity of.