Issue |
EPJ Web Conf.
Volume 152, 2017
Wide-Field Variability Surveys: A 21st Century Perspective – 22nd Los Alamos Stellar Pulsation – Conference Series Meeting
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Article Number | 01010 | |
Number of page(s) | 5 | |
Section | Past and current surveys: What we have learned, where we are standing | |
DOI | https://doi.org/10.1051/epjconf/201715201010 | |
Published online | 08 September 2017 |
https://doi.org/10.1051/epjconf/201715201010
Multiwavelength light curve parameters of Cepheid variables
1 Department of Physics & Astrophysics, University of Delhi, Delhi 110007, India
2 European Southern Observatory, Karl-Schwarzschild-Straße 2, 85748, Garching, Germany
3 State University of New York, Oswego, NY 13126, USA
4 INAF-Osservatorio astronomico di Capodimonte, Via Moiariello 16, 80131 Napoli, Italy
5 Graduate Institute of Astronomy, National Central University, Jhongli 32001, Taiwan
Published online: 8 September 2017
We present a comparative analysis of theoretical and observed light curves of Cepheid variables using Fourier decomposition. The theoretical light curves at multiple wavelengths are generated using stellar pulsation models for chemical compositions representative of Cepheids in the Galaxy and Magellanic Clouds. The observed light curves at optical (VI), near-infrared (JHKs) and mid-infrared (3.6 & 4.5-μm) bands are compiled from the literature. We discuss the variation of light curve parameters as a function of period, wavelength and metallicity. Theoretical and observed Fourier amplitude parameters decrease with increase in wavelength while the phase parameters increase with wavelength. We find that theoretical amplitude parameters obtained using canonical mass-luminosity levels exhibit a greater offset with respect to observations when compared to non-canonical relations. We also discuss the impact of variation in convective efficiency on the light curve structure of Cepheid variables. The increase in mixing length parameter results in a zero-point offset in bolometric mean magnitudes and reduces the systematic large difference in theoretical amplitudes with respect to observations.
© The Authors, published by EDP Sciences, 2017
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