VELOcities of CEpheids (VELOCE) : I. High-precision radial velocities of Cepheids
(2024) In Astronomy and Astrophysics 686.- Abstract
We present the first data release of VELOcities of CEpheids (VELOCE), dedicated to measuring the high-precision radial velocities (RVs) of Galactic classical Cepheids (henceforth, Cepheids). The first data release (VELOCE DR1) comprises 18 225 RV measurements of 258 bona fide classical Cepheids on both hemispheres collected mainly between 2010 and 2022, along with 1161 observations of 164 stars, most of which had previously been misclassified as Cepheids. The median per-observation RV uncertainty for Cepheids is 0.037 km s-1 and reaches 2 m s-1 for the brightest stars observed with Coralie. Non-variable standard stars were used to characterize RV zero-point stability and to provide a base for future cross-calibrations. We determined... (More)
We present the first data release of VELOcities of CEpheids (VELOCE), dedicated to measuring the high-precision radial velocities (RVs) of Galactic classical Cepheids (henceforth, Cepheids). The first data release (VELOCE DR1) comprises 18 225 RV measurements of 258 bona fide classical Cepheids on both hemispheres collected mainly between 2010 and 2022, along with 1161 observations of 164 stars, most of which had previously been misclassified as Cepheids. The median per-observation RV uncertainty for Cepheids is 0.037 km s-1 and reaches 2 m s-1 for the brightest stars observed with Coralie. Non-variable standard stars were used to characterize RV zero-point stability and to provide a base for future cross-calibrations. We determined zero-point differences between VELOCE and 31 literature data sets using template fitting, which we also used to investigate linear period changes of 146 Cepheids. In total, 76 spectroscopic binary Cepheids and 14 candidate binary Cepheids were identified using VELOCE data alone, which are investigated in detail in a companion Paper (VELOCE II). VELOCE DR1 provides a number of new insights into the pulsational variability of Cepheids, most importantly: a) the most detailed description of the Hertzsprung progression based on RVs to date; b) the identification of double-peaked bumps in the pulsation curve; and c) clear evidence that virtually all Cepheids feature spectroscopic variability signals that lead to modulated RV variability at the level of tens to hundreds of m s-1 and that cannot be satisfactorily modeled using single-periodic Fourier series. We identified 36 stars exhibiting such modulated variability, of which 4 also exhibit orbital motion. Linear radius variations depend strongly on pulsation period and a steep increase in slope of the ΔR/p vs. log P-relation is found near 10 days. This effect, combined with significant RV amplitude differences at fixed period, challenges the existence of a tight relation between Baade-Wesselink projection factors and pulsation periods. We investigated the accuracy of RV time series measurements, Uγ, and RV amplitudes published by Gaia's third data release (Gaia DR3) and determined an offset of 0.65 ± 0.11 km s-1 relative to VELOCE. Whenever possible, we recommend adopting a single set of template correlation parameters for distinct classes of large-amplitude variable stars to avoid systematic offsets in Uγ among stars belonging to the same class. The peak-to-peak amplitudes of Gaia RVs exhibit significant (16%) dispersion. Potential differences of RV amplitudes require further inspection, notably in the context of projection factor calibration.
(Less)
- author
- organization
- publishing date
- 2024-06-01
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Binaries: spectroscopic, Stars: oscillations, Stars: variables: Cepheids, Techniques: radial velocities
- in
- Astronomy and Astrophysics
- volume
- 686
- article number
- A177
- publisher
- EDP Sciences
- external identifiers
-
- scopus:85196271125
- ISSN
- 0004-6361
- DOI
- 10.1051/0004-6361/202348400
- language
- English
- LU publication?
- yes
- id
- 59f6d760-226c-4ffc-a7be-e636e6ee1e51
- date added to LUP
- 2024-08-20 13:38:44
- date last changed
- 2024-08-20 13:39:08
@article{59f6d760-226c-4ffc-a7be-e636e6ee1e51,
abstract = {{<p>We present the first data release of VELOcities of CEpheids (VELOCE), dedicated to measuring the high-precision radial velocities (RVs) of Galactic classical Cepheids (henceforth, Cepheids). The first data release (VELOCE DR1) comprises 18 225 RV measurements of 258 bona fide classical Cepheids on both hemispheres collected mainly between 2010 and 2022, along with 1161 observations of 164 stars, most of which had previously been misclassified as Cepheids. The median per-observation RV uncertainty for Cepheids is 0.037 km s-1 and reaches 2 m s-1 for the brightest stars observed with Coralie. Non-variable standard stars were used to characterize RV zero-point stability and to provide a base for future cross-calibrations. We determined zero-point differences between VELOCE and 31 literature data sets using template fitting, which we also used to investigate linear period changes of 146 Cepheids. In total, 76 spectroscopic binary Cepheids and 14 candidate binary Cepheids were identified using VELOCE data alone, which are investigated in detail in a companion Paper (VELOCE II). VELOCE DR1 provides a number of new insights into the pulsational variability of Cepheids, most importantly: a) the most detailed description of the Hertzsprung progression based on RVs to date; b) the identification of double-peaked bumps in the pulsation curve; and c) clear evidence that virtually all Cepheids feature spectroscopic variability signals that lead to modulated RV variability at the level of tens to hundreds of m s-1 and that cannot be satisfactorily modeled using single-periodic Fourier series. We identified 36 stars exhibiting such modulated variability, of which 4 also exhibit orbital motion. Linear radius variations depend strongly on pulsation period and a steep increase in slope of the ΔR/p vs. log P-relation is found near 10 days. This effect, combined with significant RV amplitude differences at fixed period, challenges the existence of a tight relation between Baade-Wesselink projection factors and pulsation periods. We investigated the accuracy of RV time series measurements, Uγ, and RV amplitudes published by Gaia's third data release (Gaia DR3) and determined an offset of 0.65 ± 0.11 km s-1 relative to VELOCE. Whenever possible, we recommend adopting a single set of template correlation parameters for distinct classes of large-amplitude variable stars to avoid systematic offsets in Uγ among stars belonging to the same class. The peak-to-peak amplitudes of Gaia RVs exhibit significant (16%) dispersion. Potential differences of RV amplitudes require further inspection, notably in the context of projection factor calibration.</p>}},
author = {{Anderson, Richard I. and Viviani, Giordano and Shetye, Shreeya S. and Mowlavi, Nami and Eyer, Laurent and Palaversa, Lovro and Holl, Berry and Blanco-Cuaresma, Sergi and Kravchenko, Kateryna and Pawlak, Michał and Cruz Reyes, Mauricio and Khan, Saniya and Netzel, Henryka E. and Löbling, Lisa and Pápics, Péter I. and Postel, Andreas and Roelens, Maroussia and Spetsieri, Zoi T. and Thoul, Anne and Žák, Jiří and Bonvin, Vivien and Martin, David V. and Millon, Martin and Saesen, Sophie and Wyttenbach, Aurélien and Figueira, Pedro and Marmier, Maxime and Prins, Saskia and Raskin, Gert and Van Winckel, Hans}},
issn = {{0004-6361}},
keywords = {{Binaries: spectroscopic; Stars: oscillations; Stars: variables: Cepheids; Techniques: radial velocities}},
language = {{eng}},
month = {{06}},
publisher = {{EDP Sciences}},
series = {{Astronomy and Astrophysics}},
title = {{VELOcities of CEpheids (VELOCE) : I. High-precision radial velocities of Cepheids}},
url = {{http://dx.doi.org/10.1051/0004-6361/202348400}},
doi = {{10.1051/0004-6361/202348400}},
volume = {{686}},
year = {{2024}},
}