Astronomy and Astrophysics – Astronomy
Scientific paper
Dec 2011
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2011arep...55.1115s&link_type=abstract
Astronomy Reports, Volume 55, Issue 12, pp.1115-1122
Astronomy and Astrophysics
Astronomy
1
Scientific paper
We have analyzed polarization observations of the subdwarf Bal 09, which is one of a group of hybrid sdB stars that display simultaneously both short- and long-period pulsations. Certain properties previously unknown for subdwarfs have been established for Bal 09, such as variations of the pulsation amplitude of the main oscillation mode, rotational splitting of multiplets, and variations of this splitting. Information about the stellar magnetic field must be considered if we wish to explain these properties. New observational data enabling estimation of the longitudinal magnetic field of Bal 09 have been obtained on the main stellar spectrograph of the 6-m telescope of the Special Astrophysical Observatory. Studies of the longitudinal component of the magnetic field < B z > were carried out using a regression analysis. This method simultaneously yields estimates of the uncertainty in < B z >. Test measurements of < B z > were carried out using the same method. For the star HD 158974, which has zero total magnetic field, the estimated longitudinal magnetic field is < B z > = -4 ± 5 G. The standard magnetic field for the Ap star α 2CVn was measured to be -363 ± 17 G, in very good agreement with measurements in the literature. The estimated longitudinal magnetic field for Bal 09 is 34 ± 63G—appreciably lower than values established earlier for six subdwarfs, ≈1.5 kG. The results of the regression analysis for both individual spectral subranges and for intervals containing characteristic spectral features did not indicate reliable detections of a magnetic field exceeding the uncertainties in < B z >. The uncertainty in < B z >, which was 60-80 G for the entire spectral range and 140-200 G for selected spectral intervals, leads to an estimated upper limit on the longitudinal magnetic field < B z > for Bal 09. This estimate for < B z > can place observational constraints on theoretical explanations for the amplitude variations of the pulsations, rotational splitting of multiplets, and possible variations of the internal structure of the star.
Dmitrienko E. S.
Romanyuk Iosif I.
Savanov I. S.
Semenko E. A.
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