Saved in:
| Main Authors: | , |
|---|---|
| Format: | Preprint |
| Published: |
2025
|
| Subjects: | |
| Online Access: | https://arxiv.org/abs/2511.02068 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1866911247953297408 |
|---|---|
| author | Kayhan, Cenk Şahin, Timur |
| author_facet | Kayhan, Cenk Şahin, Timur |
| contents | This investigation integrates five decades of ground-based photometric data from the AAVSO, AFOEV, ASAS, ASAS-SN, and SuperWASP surveys with recently acquired TESS observations, conducting a multi-wavelength and multi-phase photometric analysis to elucidate the complex nature of DF Cyg. For the first time, we analyze approximately four years of Kepler data alongside TESS observations. Furthermore, TESS observations obtained in 120-second cadence mode, constitute the highest-precision photometric dataset for DF Cyg to date. By isolating long-term trends in the TESS data, we quantified short-term variations in the fundamental pulsation frequency and its integer harmonics. The two alternating short-term cycles in the TESS light curve facilitated the unambiguous identification of seven previously undetected integer harmonics of the fundamental frequency in the power spectrum, providing critical new insights into the star's complex pulsation dynamics. A periodogram analysis of the combined ground- and space-based datasets revealed approximately 35 frequencies linked to both long- and short-term variability mechanisms. Stellar parameters derived from Gaia DR3 data specifically, luminosity and radius estimates based on Type II Cepheid PL and PR relations demonstrate consistency with values obtained through SED modeling. Complementary high-resolution spectroscopic analysis of DF Cyg yielded atmospheric parameters of Teff = 4781 K, logg = 1.74 dex, and [FeH] = -0.07 dex, further constraining physical characteristics of the star. This synthesis of multi-epoch, multi-instrument data advances the understanding of pulsational behavior and evolutionary status in RV Tauri systems. Our findings highlight DF Cyg as a critical benchmark for its class, as its characteristics bridge the gap between post-RGB systems in the Magellanic Clouds and higher-luminosity post-AGB stars. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2511_02068 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Decoding the RVb Enigma of DF Cyg: Pulsations, Circumstellar Disks, and Post-RGB Evolution Revealed by Multi-Wavelength Observations Kayhan, Cenk Şahin, Timur Solar and Stellar Astrophysics This investigation integrates five decades of ground-based photometric data from the AAVSO, AFOEV, ASAS, ASAS-SN, and SuperWASP surveys with recently acquired TESS observations, conducting a multi-wavelength and multi-phase photometric analysis to elucidate the complex nature of DF Cyg. For the first time, we analyze approximately four years of Kepler data alongside TESS observations. Furthermore, TESS observations obtained in 120-second cadence mode, constitute the highest-precision photometric dataset for DF Cyg to date. By isolating long-term trends in the TESS data, we quantified short-term variations in the fundamental pulsation frequency and its integer harmonics. The two alternating short-term cycles in the TESS light curve facilitated the unambiguous identification of seven previously undetected integer harmonics of the fundamental frequency in the power spectrum, providing critical new insights into the star's complex pulsation dynamics. A periodogram analysis of the combined ground- and space-based datasets revealed approximately 35 frequencies linked to both long- and short-term variability mechanisms. Stellar parameters derived from Gaia DR3 data specifically, luminosity and radius estimates based on Type II Cepheid PL and PR relations demonstrate consistency with values obtained through SED modeling. Complementary high-resolution spectroscopic analysis of DF Cyg yielded atmospheric parameters of Teff = 4781 K, logg = 1.74 dex, and [FeH] = -0.07 dex, further constraining physical characteristics of the star. This synthesis of multi-epoch, multi-instrument data advances the understanding of pulsational behavior and evolutionary status in RV Tauri systems. Our findings highlight DF Cyg as a critical benchmark for its class, as its characteristics bridge the gap between post-RGB systems in the Magellanic Clouds and higher-luminosity post-AGB stars. |
| title | Decoding the RVb Enigma of DF Cyg: Pulsations, Circumstellar Disks, and Post-RGB Evolution Revealed by Multi-Wavelength Observations |
| topic | Solar and Stellar Astrophysics |
| url | https://arxiv.org/abs/2511.02068 |