Long-Term Near-Infrared Brightening of Non-Variable OH/IR Stars

TL;DR

This study investigates long-term near-infrared brightening in non-variable OH/IR stars over 20 years, revealing general brightening consistent with dust dispersal, but also unexpected reddening in some cases indicating additional mechanisms.

Contribution

It provides the first long-term NIR observational evidence of brightening in non-variable OH/IR stars and highlights unexpected reddening, suggesting alternative processes beyond dust dispersal.

Findings

Six stars showed brightening over 20 years.

Five stars' brightening explained by dust dispersal.

One star exhibited rapid brightening not explained by dust dispersal.

Abstract

Non-variable OH/IR stars are thought to have just left the asymptotic giant branch (AGB) phase. In this conventional picture, they must still show strong circumstellar extinction caused by the dust ejected during the AGB phase, and the extinction is expected to decrease over time because of the dispersal of the circumstellar dust after the cessation of the stellar mass loss. The reduction of the extinction makes the stars become apparently brighter and bluer with time especially in the near-infrared (NIR) range. We look for such long-term brightening of non-variable OH/IR stars by using 2MASS, UKIDSS, and OAOWFC survey data. As a result, we get multi-epoch NIR data taken over a 20-year period (1997-2017) for 6 of 16 non-variable OH/IR stars, and all six objects are found to be brightening. The K-band brightening rate of five objects ranges from 0.010 to 0.130 mag yr$^{-1}$, which is reasonably explained with the conventional picture. However, one OH/IR star, OH31.0-0.2, shows a rapid brightening, which cannot be explained only by the dispersal of the dust shell. Multi-color (J-, H-, and K-band) data are obtained for three objects, OH25.1-0.3, OH53.6-0.2, and OH77.9+0.2. Surprisingly, none of them appears to have become bluer, and OH53.6-0.2 is found to have been reddened with a rate of 0.013 mag yr$^{-1}$ in (J-K). Our findings suggest other mechanisms such as rapid changes in stellar properties (temperature or luminosity) or a generation of a new batch of dust grains.