M. M. Zakirov scite author profile

M. M. Zakirov

5Publications

101Citation Statements Received

40Citation Statements Given

How they've been cited

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217

Affiliations

National University of Uzbekistan, Academy of Sciences Republic of Uzbekistan, Ulugh Beg Astronomical Institute

Publications

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Analysis of the activity of the eclipsing binary WZ Cephei

Djurašević

Zakirov

Hojaev

et al. 1998

Astron. Astrophys. Suppl. Ser.

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Abstract. The present study deals with the problem of the orbital and physical parameters' estimation of the active eclipsing binary WZ Cep based on the interpretation of its photometric observations. The B and V light curves (Hoffmann 1984), as well as the new ones obtained at the Maidanak Observatory in the B, V and R passbands during 1995, are analysed and discussed. These two groups of light curves show large differences in their shape and in the depth of the primary minimum. Hoffmann's light curves show big asymmetry, especially conspicuous in the different height of the successive maxima. The new observations give light curves that are almost symmetric having significantly shallower primary minimum.They are analysed in the framework of the Roche computer model (Djurašević 1992a) by applying the inverse problem method (Djurašević 1992b) based on Marquardt's (1963) algorithm. The model is generalised for the case of an overcontact configuration also. To explain these light curves asymmetries and variations, the model involved spotted regions on the components. The analysis shows that WZ Cep system is in a slight overcontact configuration and that best fitting is achieved with spotted regions on the primary star (SpF5), with the temperature contrast between the spotted area and the surrounding photosphere being A s = T s /T 1 ∼ 0.70. The mass ratio was estimated at the value q = m 2 /m 1 ∼ 0.33, based on the light-curve analysis.The basic parameters of the system and of the spotted areas are estimated for all foregoing mentioned light curves. The obtained solutions show that there are no significant variations of the system's basic parameters estimated by analysing these two groups of very different light curves. Consequently, the main variations in the light curves can be explained by the change of the position and the size of the spotted areas on the primary.

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A photometric study of the massive binary RY Sct

Djurašević

Zakirov

Eshankulova

et al. 2001

A&A

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Abstract. The present study deals with the problem of the estimation of the orbital and physical parameters for the EB-type eclipsing binary RY Sct, based on the interpretation of new photometric U B V R observations. The light curves obtained at the Maidanak Observatory during 1979-94 show a slight asymmetry around the secondary minima and a small difference in the height of the successive maxima. The light curves are analysed in the framework of the Roche computer model (Djurašević 1992a) by applying the inverse-problem method (Djurašević 1992b) based on Marquardt's (1963) algorithm. The analysis shows that RY Sct system is in an overcontact configuration (fover ∼ 33%) with q = m2/m1 = 3.3 and i ∼ 84.• 3, generating total-annular eclipses. The basic parameters of the system and of the active region are estimated for all individual U, B, V and R light curves. Our results suggested a mass exchange between the components and mass loss through the outer Lagrangian point L3. This could be taken as a possible mechanism in the formation of the circumstellar envelope of toroidal form lying in the orbital plane of the system.

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Absolute dimensions and masses of IT cassiopeiae.

Lacy¹,

Torres²,

Latham³

et al. 1997

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Absolute Dimensions of the A-Type Eclipsing Binary V364 Lacertae

Torres

Lacy

Claret

et al. 1999

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Close binary systems in multiple stars: III. Eclipsing variables with LITE effect

Zakirov

2010

Kinemat. Phys. Celest. Bodies

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M. M. Zakirov

Analysis of the activity of the eclipsing binary WZ Cephei

A photometric study of the massive binary RY Sct

Absolute dimensions and masses of IT cassiopeiae.

Absolute Dimensions of the A-Type Eclipsing Binary V364 Lacertae

Close binary systems in multiple stars: III. Eclipsing variables with LITE effect

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