Mon. Not. R. Astron. Soc., 468, 4299-4310 (2017/July-2)
Unstable standard candles. Periodic light-curve modulation in fundamental mode classical Cepheids.
Abstract (from CDS):
We report the discovery of periodic modulation of pulsation in 51 fundamental mode classical Cepheids of the Magellanic Clouds observed by the Optical Gravitational Lensing Experiment. Although the overall incidence rate is very low, about 1 per cent in each of the Magellanic Clouds, in the case of the Small Magellanic Cloud and pulsation periods between 12 and 16 d, the incidence rate is nearly 40 per cent. On the other hand, in the Large Magellanic Cloud the highest incidence rate is 5 per cent for pulsation periods between 8 and 14 d, and the overall amplitude of the effect is smaller. It indicates that the phenomenon is metallicity dependent. Typical modulation periods are between 70 and 300 d. In nearly all stars, the mean brightness is modulated, which, in principle, may influence the use of classical Cepheids for distance determination. Fortunately, the modulation of mean brightness does not exceed 0.01 mag in all but one star. Also, the effect averages out in typical observations spanning a long time base. Consequently, the effect of modulation on the determination of the distance moduli is negligible. The relative modulation amplitude of the fundamental mode is also low and, with one exception, it does not exceed 6 per cent. The origin of the modulation is unknown. We draw a hypothesis that the modulation is caused by the 2:1 resonance between the fundamental mode and the second overtone that shapes the famous Hertzsprung bump progression.
© 2017 The Author Published by Oxford University Press on behalf of the Royal Astronomical Society
stars: distances - stars: oscillations - stars: variables: Cepheids - Magellanic Clouds - Magellanic Clouds
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