Edward C. Olson scite author profile

Abstract. The first multisite photometric campaign devoted to the rapidly oscillating mass-accreting (primary) component of the Algol-type eclipsing binary system AS Eri has confirmed the presence of rapid pulsations with frequency 59.03116 d −1 , and revealed the second and third oscillation modes with frequencies 62.5631 d −1 and 61.6743 d −1 , respectively. These modes are related to the 5−6 overtone oscillations and are among the shortest periods excited in non-magnetic MS A-F stars. The nearly equator-on visibility of eclipsing binaries help to narrow the range of possible mode identifications for the detectable modes as radial or (l, m) = (1, ±1), (l, m) = (2, ±2) and (l, m) = (2, ±0). We checked the high-order pulsation-to-orbital synchronization (POS) using the trial mode identification and the Doppler effect correction for frequencies of non-radial pulsation. We found that (l, m, n) = (1, 1, 5) or (2, 2, 5) and (l, m, n) = (2, −2, 6) identifications for f 1 and f 2 modes respectively satisfied the highorder POS. These mode identifications are in agreement with the range of modes visible in disk integrated light of an equator-on visible pulsating component. The wavelength distribution of pulsation amplitudes in AS Eri is largest in the Strömgren u filter and decreases toward longer wavelengths. We place AS Eri and other known mass-accreting pulsating components of Algols on HR-diagram. They are located inside the instability strip on the Main Sequence. We also discuss the peculiar evolutionary status of primary components in Algols and stress that they are not normal δ Scuti stars, but form a separate group of pulsators. Finally, we discuss proximity and eclipse effects, and have simulated the effect of primary minimum data gaps that may produce the 1/P orb alias sidelobes in DFT analysis of eclipsing binary data. Aliases from gaps in primary minimum observations seem to be the principal limitation on spectral window functions in asteroseismic studies of eclipsing binaries.

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New Perspectives on AX Monocerotis

Elias

Wilson

Olson

et al. 1997

ApJ

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The Coulometric Determination of Hydrazine and Substituted Hydrazines

Olson¹

1960

Anal. Chem.

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Transient photometric disturbances in Algol-like binaries

Olson¹

1982

ApJ

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New rotational velocities for eclipsing binaries, and a comparison of spectroscopic and photometric rotations

Etzel¹,

Olson²

1993

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Edward C. Olson

Frequency spectrum of the rapidly-oscillating mass-accreting component of the Algol-type system AS Eri

New Perspectives on AX Monocerotis

The Coulometric Determination of Hydrazine and Substituted Hydrazines

Transient photometric disturbances in Algol-like binaries

New rotational velocities for eclipsing binaries, and a comparison of spectroscopic and photometric rotations

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