Multiperiodicity in the newly discovered mid-late Be star V2104 Cygni

TL;DR

This study presents the first detailed photometric analysis of the Be star V2104 Cygni, revealing multiple intrinsic frequencies and suggesting non-radial pulsations as the variability cause, while estimating its physical parameters and confirming its Be star nature.

Contribution

It provides the first long-term homogeneous photometric data and frequency analysis of V2104 Cygni, identifying multiple frequencies and characterizing its physical parameters and pulsational behavior.

Findings

Detected three independent frequencies below 0.01 mag amplitude.

Confirmed V2104 Cygni as a Be star with rapid rotation.

Suggested non-radial pulsations as the variability mechanism.

Abstract

We obtained the first long, homogenous time-series of V2104Cyg, consisting of 679 datapoints, with the uvbybeta photometers of Sierra Nevada and San Pedro Martir Observatories with the aim to detect and subsequently interpret the intrinsic frequencies of this previously unstudied variable star, which turned out to be a Be star. We try to figure out its place among the variable B stars on the upper Main Sequence. In order to obtain additional information on physical parameters we collected a few spectra with the ELODIE and FIES instruments. We searched for frequencies in the uvby passbands using 2 different frequency analysis methods and used the S/N>4 criterion to select the significant periodicities. We obtained an estimate of the physical parameters of the underlying B star of spectral type between B5 and B7, by correcting for the presence of a circumstellar disk, using a formalism based on the strenght of the Halpha line emission. We detected 3 independent frequencies with amplitudes below 0.01mag, f1 = 4.7126 c/d, f2 = 2.2342 c/d and f3 = 4.671 c/d, and discovered that V2104Cyg is a Be star. The fast rotation (vsini=290+/-10 km/s, and 27<i<45) hampered the investigation of the associated pulsational parameters l. Nevertheless, the most plausible explanation for the observed variability of this mid-late type Be star is a non-radial pulsation model. This paper is based on observations obtained at the Observatorio Astronomico Nacional San Pedro Martir (Mexico), Observatorio de Sierra Nevada (Spain), Observatoire de Haute Provence (France), and on observations made with the Nordic Optical Telescope, Observatorio Roque de los Muchachos, La Palma, Spain.