E. H. Nikoghosyan scite author profile

E. H. Nikoghosyan

5Publications

55Citation Statements Received

253Citation Statements Given

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Affiliations

Byurakan Astrophysical Observatory, National Academy of Sciences of Armenia

Publications

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Young Stellar Cluster in the Vicinity of the IRAS 05137+3919 Source

Nikoghosyan

Azatyan

2014

Astrophysics

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PMS stellar objects are identified in a cluster located in the vicinity of IRAS 05137+3919 using the UKIDSS data base and Spitzer telescope (IRAC) images. The age of the cluster is 1.5-2.0 million years.Young stars are distributed nonuniformly in the cluster and form two subgroups. One is localized around the YSO CPM, which is a binary star, and the second contains a substantial number of objects with early spectral classes surrounded by gas-dust nebulae. The K luminosity functions of the PMS stars indicate that the cluster is at a distance of ~4.5 kpc. One of the components of CPM 15 appears to have Sp B3-B5 and is an Ae/Be Herbig star.

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Search for Compact Stellar Groups in the Vicinity of Iras Sources

2016

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Infrared study of the star-forming region associated with the UC HII regions G45.07+0.13 and G45.12+0.13

Azatyan

Nikoghosyan

Harutyunian

et al. 2022

Publ. Astron. Soc. Aust.

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Ultra-compact H ii (UC HII) regions are an important phase in the formation and early evolution of massive stars and a key component of the interstellar medium (ISM). The main objectives of this work are to study the young stellar population associated with the G45.07+0.13 and G45.12+0.13 UC HII regions, as well as the ISM in which they are embedded. We determined the distribution of the hydrogen column density (N( $\mathrm{H}_2$ )) and dust temperature ( $T_d$ ) in the molecular cloud using Modified blackbody fitting on Herschel images obtained in four bands: 160, 250, 350, and $500\,\unicode{x03BC}\mathrm{m}$ . We used near-, mid-, and far-infrared photometric data to identify and classify the young stellar objects (YSOs). Their main parameters were determined by the radiation transfer models. We also constructed a colour-magnitude diagram and K luminosity functions (KLFs) to compare the parameters of stellar objects with the results of the radiative transfer models. We found that N( $\mathrm{H}_2$ ) varies from ${\sim}3.0 \times 10^{23}$ to $5.5 \times 10^{23}\,\mathrm{cm}^{-2}$ within the G45.07+0.13 and G45.12+0.13 regions, respectively. The maximum $T_d$ value is 35 K in G45.12+0.13 and 42 K in G45.07+0.13. $T_d$ then drops significantly from the centre to the periphery, reaching about 18–20 K at distances of ${\sim}2.6$ and ${\sim}3.7\,\mathrm{pc}$ from InfraRed Astronomical Satellite (IRAS) 19110+1045 (G45.07+0.13) and IRAS 19111+1048 (G45.12+0.13), respectively. The gas plus dust mass value included in G45.12+0.13 is ${\sim}3.4 \times 10^5\,\mathrm{M}_\odot$ and ${\sim}1.7 \times 10^5\,\mathrm{M}_\odot$ in G45.07+0.13. The UC HII regions are connected through a cold ( $T_d = 19\,\mathrm{K}$ ) bridge. The radial surface density distribution of the identified 518 YSOs exhibits dense clusters in the vicinity of both IRAS sources. The parameters of YSOs in the IRAS clusters (124 objects) and 394 non-cluster objects surrounding them show some differences. About 75% of the YSOs belonging to the IRAS clusters have an evolutionary age greater than $10^6$ yr. Their slope $\alpha$ of the KLF agrees well with a Salpeter-type initial mass function (IMF) ( $\gamma = 1.35$ ) for a high mass range (O–F stars, $\beta \sim 2$ ) at 1 Myr. The non-cluster objects are uniformly distributed in the molecular cloud, 80% of which are located to the right of the 0.1 Myr isochrone. The slope $\alpha$ of the KLF of non-cluster objects is $0.55\,\pm\,0.09$ , corresponding better to a Salpeter-type IMF for low-mass objects (G–M stars, $\beta \sim 1$ ). Our results show that two dense stellar clusters are embedded in these two physically connected UC HII regions. The clusters include several high- and intermediate-mass zero-age main sequence stellar objects. Based on the small age spread of the stellar objects, we suggest that the clusters originate from a single triggering shock. The extended emission observed in both UC HII regions is likely due to the stellar clusters.

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Statistical Analysis of Stars with Hα Emission in the Cluster IC 348

2015

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Abstract. In this work the results of the statistical analysis of the  200 stars with Н emission in the IC 348 cluster are presented. The sample is completed up to R < 20.0. The optical radius is 11. The percentage of emission stars increases from bright to fainter objects and to the range of 13.0 ≤ R-AR ≤ 19.0 reaches 80%. The ratio between WTTau and CTTau objects is 64% and 36%. The 70% of X-ray sources are WTTau stars. The age of WTTau and CTTau objects are 2·10 6 years. The age of the non emission stars with a mass less solar is 2·10 6 years also, but non emission more massive objects are "older", the age of them is 7·10 6 years. The most massive stars with a low level of activity is concentrated in a small dense central core of the cluster with a radius 1, and apparently, they are generated during an earlier wave of star formation in the cluster.

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PMS-objects in the star formation region Cep OB3. I. Stars with Hα emission

Nikoghosyan

2013

Astrophysics

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E. H. Nikoghosyan

Young Stellar Cluster in the Vicinity of the IRAS 05137+3919 Source

Search for Compact Stellar Groups in the Vicinity of Iras Sources

Infrared study of the star-forming region associated with the UC HII regions G45.07+0.13 and G45.12+0.13

Statistical Analysis of Stars with Hα Emission in the Cluster IC 348

PMS-objects in the star formation region Cep OB3. I. Stars with Hα emission

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