The disintegrating old open cluster Czernik 3

Sharma, Saurabh; Ghosh, Arpan; Ojha, D. K.; Pandey, R.; Sinha, Tirthendu; Pandey, A. K.; Ghosh, S. K.; Panwar, Neelam; Pandey, S. B.

doi:10.1093/mnras/staa2412

Cited by 27 publications

(42 citation statements)

References 85 publications

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“…The aperture photometry was performed in all the J, H, and K bands as WR 125 was isolated in all the science frames. The instrumental magnitudes of WR 125 at each epoch of observations were calibrated by using color equations generated from the instrumental and 2MASS photometry of the other stars in the same field of view (see Sharma et al 2020). The absolute JHK magnitudes obtained for WR 125 are given in Table 5. 6.…”

Section: Nir Monitoring Of Wr 125mentioning

confidence: 99%

Quest for the upcoming periastron passage of an episodic dust maker and particle accelerating colliding wind binary: WR 125

Arora,

Pandey,

De Becker

et al. 2021

Preprint

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We have carried out a long term infrared and X-ray investigation of the colliding wind binary WR 125 (WC7 + O9III). The source was monitored using AstroSat−Soft X-ray Telescope and TIRCAM2 mounted at the back of 3.6 m Devasthal Optical Telescope. WR 125 appeared brighter in near infra-red K-band during the years 2017-2021 which is attributed to another episode of dust formation similar to the one reported during the likely periastron passage at the beginning of the 1990s. This is further supported by enhanced emission observed in W1 and W2 bands of WISE from 2018-19. By combining archival X-ray data sets with our new measurements, long-term variations have been noticed. The source reaches a lower emission state in June 2020 (close to the recent infrared maximum) which could be due to enhanced absorption of X-rays produced in the colliding wind region by the WC stellar wind close to the periastron in an eccentric orbit. The time interval between the previous and latest X-ray low states may indicate an orbital period of 28-29 years, in fair agreement with the recurrence time of episodic dust production. We also discuss published radio measurements in the context of a common picture based on a long period binary scenario. These results allow us to draw relevant guidelines for future multi-wavelength observations of WR 125.

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Section: Nir Monitoring Of Wr 125mentioning

confidence: 99%

Quest for the upcoming periastron passage of an episodic dust maker and particle accelerating colliding wind binary: WR 125

Arora,

Pandey,

De Becker

et al. 2021

Preprint

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“…We have used the Gaia proper motion (PM) data with σ P M <3 mas/yr to determine the membership probability of the stars belonging to the NE-cluster found in the S301 region using the method described in Balaguer-Núnez et al (1998). This method has been extensively used recently (for example, Sinha et al 2020;Sharma et al 2020;Kaur et al 2020;Pandey et al 2020b). PMs in RA and Dec are plotted as vector-point diagrams (VPDs) in the top panels of Figure 4.…”

Section: Membership Probability Of Stars In the Ne Clustermentioning

confidence: 99%

“…Two-color diagrams (TCDs) and CMDs of the member stars have been proven to be very good tools to constrain reddening, distance and age of a cluster (for example, Phelps & Janes 1994;Sharma et al 2006Sharma et al , 2020. In the left panel of Figure 6, we have shown (U − B) versus (B − V ) TCD of the stars located within the boundary of the NE-cluster (radius < 3 .3).…”

Section: Reddening Distance and Age Of The Ne Clustermentioning

confidence: 99%

Sh 2-301: a blistered H II region undergoing star formation

Pandey,

Sharma,

Dewangan

et al. 2021

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We present a multiwavelength study of the H ii region Sh 2-301 (S301) using deep optical data, near-infrared data, radio continuum data and other archival data at longer wavelengths. A cluster of young stellar objects (YSOs) is identified in the north-east (NE) direction of S301. The Hα and radio continuum images trace the distribution of the ionized gas surrounding a massive star ALS 207, and the S301 H ii region is bounded by an arc-like structure of gas and dust emission in the south-eastern direction. The north-western part of S301 seems to be devoid of gas and dust emission, while the presence of molecular material between the NE cluster and the central massive star ALS 207 is found. The distribution of warm dust emission, ionized gas, and neutral hydrogen together suggests a blistered morphology of the S301 H ii region powered by ALS 207, which appears to be located near the edge of the cloud. The location of the NE cluster embedded in the cold molecular cloud is found opposite to the blistered morphology. There is a noticeable age difference investigated between the massive star and the NE cluster. This age difference, pressure calculation, photodissociation regions (PDRs), and the distribution of YSOs favour the positive feedback of the massive star ALS 207 in S301. On a wider scale of S301, the H ii region and the young stellar cluster are depicted toward the central region of a hub-filamentary system, which is evident in the infrared images.

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“…We have used standard data reduction procedures for the image cleaning, photometry, and astrometry (for details, see Sharma et al 2020). We have derived following color transformation equations using the available magnitudes in different filters (i.e., APASS DR10 archive 5 or Two Micron All Sky Survey (2MASS) archive 6 ) of all the stars in the frame at epoch JD = 2459141 (for optical) and JD = 2459144 (for NIR).…”

Section: Gaia 20eae: Location and Distancementioning

confidence: 99%

Gaia 20eae: A newly discovered episodically accreting young star

Ghosh,

Sharma,

Ninan

et al. 2021

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The Gaia Alert System issued an alert on 2020 August 28, on Gaia 20eae when its light curve showed a ∼4.25 magnitude outburst. We present multi-wavelength photometric and spectroscopic follow-up observations of this source since 2020 August and identify it as the newest member of the FUor/EXor family of sources. We find that the present brightening of Gaia 20eae is not due to the dust clearing event but due to an intrinsic change in the spectral energy distribution. The light curve of Gaia 20eae shows a transition stage during which most of its brightness (∼3.4 mag) has occurred at a short timescale of 34 days with a rise-rate of 3 mag/month. Gaia 20eae has now started to decay at a rate of 0.3 mag/month. We have detected a strong P Cygni profile in Hα which indicates the presence of winds originating from regions close to the accretion. We find signatures of very strong and turbulent outflow and accretion in Gaia 20eae during this outburst phase. We have also detected a red-shifted absorption component in all the Ca II IR triplet lines consistent with signature of hot in-falling gas in the magnetospheric accretion funnel. This enables us to constrain the viewing angle with respect to the accretion funnel. Our investigation of Gaia 20eae points towards magnetospheric accretion being the phenomenon for the current outburst.

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The disintegrating old open cluster Czernik 3

Cited by 27 publications

References 85 publications

Quest for the upcoming periastron passage of an episodic dust maker and particle accelerating colliding wind binary: WR 125

Quest for the upcoming periastron passage of an episodic dust maker and particle accelerating colliding wind binary: WR 125

Sh 2-301: a blistered H II region undergoing star formation

Gaia 20eae: A newly discovered episodically accreting young star

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