Optical spectroscopy of Galactic field classical Be stars

Banerjee, Gourav; Mathew, Blesson; Paul, K. T.; Subramaniam, Annapurni; Bhattacharyya, Suman; Anusha, R

doi:10.1093/mnras/staa3469

Cited by 11 publications

(11 citation statements)

References 77 publications

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“…It is known that He I emission lines are found rarely in Be stars (Banerjee et al 2021) and are produced in hightemperature regions with T ∼15,000 K (Kwan & Fischer 2011). Bahng & Hendry (1975) proposed that these lines may either be a temporary phenomenon or non-LTE effects are responsible for their selective excitation.…”

Section: Variability In He I Emission Linesmentioning

confidence: 99%

“…A Be star is a special class of massive B-type main-sequence (MS) star, surrounded by a geometrically thin, equatorial, gaseous, decretion disk (Meilland et al 2007). Be stars are primarily identified by means of a Hα emission feature formed in the ionized decretion disk of Be stars, by means of the recombination process (e.g., Banerjee et al 2021;Mathew et al 2012).…”

Section: Introductionmentioning

confidence: 99%

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Decoding the X-Ray Flare from MAXI J0709–159 Using Optical Spectroscopy and Multiepoch Photometry

Bhattacharyya¹,

Mathew²,

Ezhikode³

et al. 2022

ApJL

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We present a follow-up study on the recent detection of two X-ray flaring events by MAXI/Gas Slit Camera observations in soft and hard X-rays from MAXI J0709–159 in the direction of HD 54786 (LY CMa), on 2022 January 25. The X-ray luminosity during the flare was around 1037 erg s−1 (MAXI), which got reduced to 1032 erg s−1 (NuSTAR) after the flare. We took low-resolution spectra of HD 54786 from the 2.01 m Himalayan Chandra Telescope and the 2.34 m Vainu Bappu Telescope (VBT) facilities in India, on 2022 February 1 and 2. In addition to Hα emission, we found emission lines of He i in the optical spectrum of this star. By comparing our spectrum of the object with those from the literature we found that He i lines show variability. Using photometric studies we estimate that the star has an effective temperature of 20,000 K. Although HD 54786 is reported as a supergiant in previous studies, our analysis favors it to be evolving off the main sequence in the color–magnitude diagram. We could not detect any infrared excess, ruling out the possibility of IR emission from a dusty circumstellar disk. Our present study suggests that HD 54786 is a Be/X-ray binary system with a compact object companion, possibly a neutron star.

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Section: Variability In He I Emission Linesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Decoding the X-Ray Flare from MAXI J0709–159 Using Optical Spectroscopy and Multiepoch Photometry

Bhattacharyya¹,

Mathew²,

Ezhikode³

et al. 2022

ApJL

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“…The rest-frame velocity widths are 386.45, 172.67, and 170.43 km s −1 for the SDSS and two LRIS spectra (the later two are spectrally-unresolved), respectively, suggesting that the line widths of these lines are variable. The emission strength ratio of Ca II triplets is roughly 1:1:1 rather than the theoretically predicted value of 1:9:5, suggesting that the line-forming region is optically-thick (e.g., Apparao & Tarafdar 1988;Banerjee et al 2021). The resemblance between the Ca II and Fe II line widths in the SDSS spectrum implies that Ca II and Fe II emission lines are originated from the same, high density photo-ionization region.…”

Section: Calcium and Iron Emission Linesmentioning

confidence: 80%

Multiple giant eruptions and X-ray emission in the recoiling AGN/LBV candidate SDSS1133

Kokubo

2021

Preprint

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We present a comprehensive analysis of 20 years worth of multi-color photometric light curves, multi-epoch optical spectra, and X-ray data of an off-nuclear variable object SDSS1133 in Mrk 177 at z = 0.0079. The UV-optical light curves reveal that SDSS1133 experienced three outbursts in 2001, 2014, and 2019. The persistent UVoptical luminosity in the non-outbursting state is ∼ 10 41 erg s −1 with small-scale flux variations, and peak luminosities during the outbursts reach ∼ 10 42 erg s −1 . The optical spectra exhibit enduring broad hydrogen Balmer P-Cygni profiles with the absorption minimum at ∼ −2, 000 km s −1 , indicating the presence of fast moving ejecta. Chandra detected weak X-ray emission at a 0.3 − 10 keV luminosity of L X = 4 × 10 38 erg s −1 after the 2019 outburst. These lines of evidence strongly suggests that SDSS1133 is an extremely luminous blue variable (LBV) star experiencing multiple giant eruptions with interactions of the ejected shell with different shells and/or circumstellar medium (CSM), and strongly disfavors the recoiling Active Galactic Nuclei (AGN) scenario suggested in the literature. We suggest that pulsational pair-instability may provide a viable explanation for the multiple energetic eruptions in SDSS1133. If the current activity of SDSS1133 is a precursor of a supernova explosion, we may be able to observe a few additional giant eruptions and then the terminal supernova explosion in future observations.

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“…They are main sequence stars having luminosity classes III-V. An in depth overview of CBe star studies carried out on different aspects is given in Rivinius et al (2013) and Porter & Rivinius (2003). Being a subset of massive B-type stars, these CBe stars are rapid rotators and are characterized by emission lines of different elements in their spectra (e.g., Mathew & Subramaniam 2011;Paul et al 2012;Aguayo et al 2017;Shokry et al 2018;Banerjee et al 2021), in addition to an infrared excess in the spectral energy distribution (Gehrz et al 1974;Hartmann & Cassinelli 1977). These emission lines and infrared excess originate from a surrounding circumstellar disk, which is an equatorial, gaseous, geometrically thin decretion disk that orbits the central star (Meilland et al 2007).…”

mentioning

confidence: 99%

“…Hence, several spectroscopic surveys have been performed until date, both in optical (e.g., Andrillat & Fehrenbach 1982;Dachs et al 1986;Hanuschik 1986;Koubský et al 2012;Arcos et al 2017;Klement et al 2019) and in near-infrared (e.g., Clark & Steele 2000;Steele & Clark 2001;Granada et al 2011) wavelength bands for characterizing CBe star disks and better understanding the Be phenomenon. Focusing on similar aspects, numerous additional spectroscopic surveys have also been done for CBe stars situated in different environments, such as fields (Banerjee et al 2021), open clusters (Mathew et al 2008) and extragalactic regimes such as the Magellanic Clouds (Paul et al 2012).…”

mentioning

confidence: 99%

Optical Spectroscopy of Classical Be Stars in Old Open Clusters

Jagadeesh¹,

Mathew

Paul

et al. 2023

Res. Astron. Astrophys.

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This is the first spectroscopic study of CBe stars in open clusters older than 100 Myr. We performed the optical spectroscopy of 16 classical Be stars in 11 open clusters older than 100 Myr. Among these 16 stars, we identified 15 stars from our previous slitless spectroscopy study. The remaining one, LS III +47 37b, is a new detection, which is confirmed through the present study. We found that the Hα emission strength of most of the stars is less than 40 ̊A, in agreement with the previous studies. Our analysis also suggests that one out of these 16 stars, [KW97] 35-12, might be a weak Hα emitter in nature showing Hα EW of -0.5 ̊A. Interestingly, we also found that these 16 stars exhibit lesser number of emission lines compared to classical Be stars younger than 100 Myr. Moreover, the spectral type distribution analysis of B-type and classical Be stars for selected clusters points out that there might be a probability that the existence of classical Be stars can depend on the incidence of B-type stars present in the respective clusters.

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Optical spectroscopy of Galactic field classical Be stars

Cited by 11 publications

References 77 publications

Decoding the X-Ray Flare from MAXI J0709–159 Using Optical Spectroscopy and Multiepoch Photometry

Decoding the X-Ray Flare from MAXI J0709–159 Using Optical Spectroscopy and Multiepoch Photometry

Multiple giant eruptions and X-ray emission in the recoiling AGN/LBV candidate SDSS1133

Optical Spectroscopy of Classical Be Stars in Old Open Clusters

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