A Study of Mid-Infrared Sources that Dramatically Brightened

TL;DR

This study investigates mid-infrared sources that have significantly brightened over two decades, revealing their nature through photometric and spectroscopic observations, and discusses possible causes for their dramatic brightening.

Contribution

The paper provides detailed observations and classifications of MIR brightening sources, including first-time data for some, and explores potential mechanisms behind their luminosity increase.

Findings

IRAS 22343+7501 resolved into 4 stars with new JHKs data

IRAS 19574+9441 identified as an M-type evolved star

V583 Cas confirmed as a carbon star

Abstract

We present results of near-infrared photometric and spectroscopic observations of mid-infrared (MIR) sources that dramatically brightened. Using IRAS, AKARI, and WISE point source catalogs, we found that 4 sources (IRAS 19574+491, V2494 Cyg, IRAS 22343+7501, and V583 Cas) significantly brightened at MIR wavelengths over the 20-30 years of difference in observing times. Little is known about these sources except V2494 Cyg, which is considered a FU Orionis star. Our observation clearly resolves IRAS 22343+7501 into 4 stars (2MASS J22352345+7517076, 2MASS J22352442+7517037, [RD95] C, and 2MASS J22352497+7517113) and first JHKs photometric data for all 4 sources are obtained. Two of these stars (2MASS J22352442+7517037 and 2MASS J22352497+7517113) are known as T Tau stars. Our spectroscopic observation reveals that IRAS 19574+9441 is an M-type evolved star and V583 Cas is a carbon star. 2MASS J22352345+7517076 is probably a YSO, judging from our observation that it has featureless near-infrared (NIR) spectrum and also showed dramatic brightening in NIR (about 4 magnitudes in Ks-band). The possible reasons for dramatic brightening in MIR are discussed in this paper.