Asteroseismology of the G8 subgiant β Aquilae with SONG-Tenerife, SONG-Australia and TESS

Hans Kjeldsen; Timothy R. Bedding; Yaguang Li; Frank Grundahl; Mads Fredslund Andersen; Duncan J. Wright; Jack Soutter; Robert Wittenmyer; Claudia Reyes; Dennis Stello; Courtney Crawford; Yixiao Zhou; Mathieu Clerte; Pere L. Pallé; Sergio Simon-Diaz; Jørgen Christensen-Dalsgaard; Rasmus Handberg; Hasse Hansen; Paul Heeren; Jens Jessen-Hansen; Mikkel N. Lund; Mia S. Lundkvist; Karsten Brogaard; René Tronsgaard; Jonatan Rudrasingam; Luca Casagrande; Jonathan Horner; Daniel Huber; John Lattanzio; Sarah L. Martell; Simon J. Murphy

doi:10.1051/0004-6361/202554633

Asteroseismology of the G8 subgiant β Aquilae with SONG-Tenerife, SONG-Australia and TESS

Hans Kjeldsen^*, Timothy R. Bedding, Yaguang Li, Frank Grundahl, Mads Fredslund Andersen, Duncan J. Wright, Jack Soutter, Robert Wittenmyer, Claudia Reyes, Dennis Stello, Courtney Crawford, Yixiao Zhou, Mathieu Clerte, Pere L. Pallé, Sergio Simon-Diaz, Jørgen Christensen-Dalsgaard, Rasmus Handberg, Hasse Hansen, Paul Heeren, Jens Jessen-HansenMikkel N. Lund, Mia S. Lundkvist, Karsten Brogaard, René Tronsgaard, Jonatan Rudrasingam, Luca Casagrande, Jonathan Horner, Daniel Huber, John Lattanzio, Sarah L. Martell, Simon J. Murphy

^*Corresponding author for this work

The Australian National University

Research output: Contribution to journal › Article › peer-review

1 Citation (SciVal)

Abstract

Aims. We present time-series radial velocities of the G8 subgiant star β Aql obtained in 2022 and 2023 using SONG-Tenerife and, for the first time, SONG-Australia. We also analyse a sector of TESS photometry that overlapped with the 2022 SONG data. Methods. We processed the time series to assign weights and to remove bad data points. The resulting power spectrum clearly shows solar-like oscillations centred at 430 μHz. The TESS light curve shows the oscillations at lower signal-to-noise, reflecting the fact that photometric measurements are much more affected by the granulation background than are radial velocities. Results. The simultaneous observations in velocity and photometry represent the best such measurements for any star apart from the Sun. They allowed us to measure the ratio between the bolometric photometric amplitude and the velocity amplitude to be 26.6 3.1 ppm/ms¹. We measured this ratio for the Sun from published SOHO data to be 19.50.7 ppm/ms¹ and, after accounting for the difference in effective temperatures of β Aql and the Sun, these values align with expectations. In both the Sun and β Aql, the photometry-to-velocity ratio appears to be a function of frequency. We also measured the phase shift of the oscillations in β Aql between SONG and TESS to be 113±7, which agrees with the value for the Sun and also with a 3D simulation of a star with similar properties to β Aql. Importantly for exoplanet searches, we argue that simultaneous photometry can be used to predict the contribution of oscillations to radial velocities. We measured frequencies for 22 oscillation modes in β Aql and carried out asteroseismic modelling, yielding an excellent fit to the frequencies. We derived accurate values for the mass and age, and were able to place quite strong constraints on the mixing-length parameter. Finally, we show that the oscillation properties of β Aql are very similar to stars in the open cluster M67.

Original language	English
Article number	A39
Number of pages	15
Journal	Astronomy and Astrophysics
Volume	700
DOIs	https://doi.org/10.1051/0004-6361/202554633
Publication status	Published - 1 Aug 2025

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Kjeldsen, H., Bedding, T. R., Li, Y., Grundahl, F., Andersen, M. F., Wright, D. J., Soutter, J., Wittenmyer, R., Reyes, C., Stello, D., Crawford, C., Zhou, Y., Clerte, M., Pallé, P. L., Simon-Diaz, S., Christensen-Dalsgaard, J., Handberg, R., Hansen, H., Heeren, P., ... Murphy, S. J. (2025). Asteroseismology of the G8 subgiant β Aquilae with SONG-Tenerife, SONG-Australia and TESS. Astronomy and Astrophysics, 700, Article A39. https://doi.org/10.1051/0004-6361/202554633

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title = "Asteroseismology of the G8 subgiant β Aquilae with SONG-Tenerife, SONG-Australia and TESS",

abstract = "Aims. We present time-series radial velocities of the G8 subgiant star β Aql obtained in 2022 and 2023 using SONG-Tenerife and, for the first time, SONG-Australia. We also analyse a sector of TESS photometry that overlapped with the 2022 SONG data. Methods. We processed the time series to assign weights and to remove bad data points. The resulting power spectrum clearly shows solar-like oscillations centred at 430 μHz. The TESS light curve shows the oscillations at lower signal-to-noise, reflecting the fact that photometric measurements are much more affected by the granulation background than are radial velocities. Results. The simultaneous observations in velocity and photometry represent the best such measurements for any star apart from the Sun. They allowed us to measure the ratio between the bolometric photometric amplitude and the velocity amplitude to be 26.6 3.1 ppm/ms1. We measured this ratio for the Sun from published SOHO data to be 19.50.7 ppm/ms1 and, after accounting for the difference in effective temperatures of β Aql and the Sun, these values align with expectations. In both the Sun and β Aql, the photometry-to-velocity ratio appears to be a function of frequency. We also measured the phase shift of the oscillations in β Aql between SONG and TESS to be 113±7, which agrees with the value for the Sun and also with a 3D simulation of a star with similar properties to β Aql. Importantly for exoplanet searches, we argue that simultaneous photometry can be used to predict the contribution of oscillations to radial velocities. We measured frequencies for 22 oscillation modes in β Aql and carried out asteroseismic modelling, yielding an excellent fit to the frequencies. We derived accurate values for the mass and age, and were able to place quite strong constraints on the mixing-length parameter. Finally, we show that the oscillation properties of β Aql are very similar to stars in the open cluster M67.",

keywords = "Stars: oscillations",

author = "Hans Kjeldsen and Bedding, \{Timothy R.\} and Yaguang Li and Frank Grundahl and Andersen, \{Mads Fredslund\} and Wright, \{Duncan J.\} and Jack Soutter and Robert Wittenmyer and Claudia Reyes and Dennis Stello and Courtney Crawford and Yixiao Zhou and Mathieu Clerte and Pall{\'e}, \{Pere L.\} and Sergio Simon-Diaz and J{\o}rgen Christensen-Dalsgaard and Rasmus Handberg and Hasse Hansen and Paul Heeren and Jens Jessen-Hansen and Lund, \{Mikkel N.\} and Lundkvist, \{Mia S.\} and Karsten Brogaard and Ren{\'e} Tronsgaard and Jonatan Rudrasingam and Luca Casagrande and Jonathan Horner and Daniel Huber and John Lattanzio and Martell, \{Sarah L.\} and Murphy, \{Simon J.\}",

note = "Publisher Copyright: {\textcopyright} The Authors 2025.",

year = "2025",

month = aug,

day = "1",

doi = "10.1051/0004-6361/202554633",

language = "English",

volume = "700",

journal = "Astronomy and Astrophysics",

issn = "0004-6361",

publisher = "EDP Sciences",

}

Kjeldsen, H, Bedding, TR, Li, Y, Grundahl, F, Andersen, MF, Wright, DJ, Soutter, J, Wittenmyer, R, Reyes, C, Stello, D, Crawford, C, Zhou, Y, Clerte, M, Pallé, PL, Simon-Diaz, S, Christensen-Dalsgaard, J, Handberg, R, Hansen, H, Heeren, P, Jessen-Hansen, J, Lund, MN, Lundkvist, MS, Brogaard, K, Tronsgaard, R, Rudrasingam, J, Casagrande, L, Horner, J, Huber, D, Lattanzio, J, Martell, SL & Murphy, SJ 2025, 'Asteroseismology of the G8 subgiant β Aquilae with SONG-Tenerife, SONG-Australia and TESS', Astronomy and Astrophysics, vol. 700, A39. https://doi.org/10.1051/0004-6361/202554633

TY - JOUR

T1 - Asteroseismology of the G8 subgiant β Aquilae with SONG-Tenerife, SONG-Australia and TESS

AU - Kjeldsen, Hans

AU - Bedding, Timothy R.

AU - Li, Yaguang

AU - Grundahl, Frank

AU - Andersen, Mads Fredslund

AU - Wright, Duncan J.

AU - Soutter, Jack

AU - Wittenmyer, Robert

AU - Reyes, Claudia

AU - Stello, Dennis

AU - Crawford, Courtney

AU - Zhou, Yixiao

AU - Clerte, Mathieu

AU - Pallé, Pere L.

AU - Simon-Diaz, Sergio

AU - Christensen-Dalsgaard, Jørgen

AU - Handberg, Rasmus

AU - Hansen, Hasse

AU - Heeren, Paul

AU - Jessen-Hansen, Jens

AU - Lund, Mikkel N.

AU - Lundkvist, Mia S.

AU - Brogaard, Karsten

AU - Tronsgaard, René

AU - Rudrasingam, Jonatan

AU - Casagrande, Luca

AU - Horner, Jonathan

AU - Huber, Daniel

AU - Lattanzio, John

AU - Martell, Sarah L.

AU - Murphy, Simon J.

PY - 2025/8/1

Y1 - 2025/8/1

N2 - Aims. We present time-series radial velocities of the G8 subgiant star β Aql obtained in 2022 and 2023 using SONG-Tenerife and, for the first time, SONG-Australia. We also analyse a sector of TESS photometry that overlapped with the 2022 SONG data. Methods. We processed the time series to assign weights and to remove bad data points. The resulting power spectrum clearly shows solar-like oscillations centred at 430 μHz. The TESS light curve shows the oscillations at lower signal-to-noise, reflecting the fact that photometric measurements are much more affected by the granulation background than are radial velocities. Results. The simultaneous observations in velocity and photometry represent the best such measurements for any star apart from the Sun. They allowed us to measure the ratio between the bolometric photometric amplitude and the velocity amplitude to be 26.6 3.1 ppm/ms1. We measured this ratio for the Sun from published SOHO data to be 19.50.7 ppm/ms1 and, after accounting for the difference in effective temperatures of β Aql and the Sun, these values align with expectations. In both the Sun and β Aql, the photometry-to-velocity ratio appears to be a function of frequency. We also measured the phase shift of the oscillations in β Aql between SONG and TESS to be 113±7, which agrees with the value for the Sun and also with a 3D simulation of a star with similar properties to β Aql. Importantly for exoplanet searches, we argue that simultaneous photometry can be used to predict the contribution of oscillations to radial velocities. We measured frequencies for 22 oscillation modes in β Aql and carried out asteroseismic modelling, yielding an excellent fit to the frequencies. We derived accurate values for the mass and age, and were able to place quite strong constraints on the mixing-length parameter. Finally, we show that the oscillation properties of β Aql are very similar to stars in the open cluster M67.

AB - Aims. We present time-series radial velocities of the G8 subgiant star β Aql obtained in 2022 and 2023 using SONG-Tenerife and, for the first time, SONG-Australia. We also analyse a sector of TESS photometry that overlapped with the 2022 SONG data. Methods. We processed the time series to assign weights and to remove bad data points. The resulting power spectrum clearly shows solar-like oscillations centred at 430 μHz. The TESS light curve shows the oscillations at lower signal-to-noise, reflecting the fact that photometric measurements are much more affected by the granulation background than are radial velocities. Results. The simultaneous observations in velocity and photometry represent the best such measurements for any star apart from the Sun. They allowed us to measure the ratio between the bolometric photometric amplitude and the velocity amplitude to be 26.6 3.1 ppm/ms1. We measured this ratio for the Sun from published SOHO data to be 19.50.7 ppm/ms1 and, after accounting for the difference in effective temperatures of β Aql and the Sun, these values align with expectations. In both the Sun and β Aql, the photometry-to-velocity ratio appears to be a function of frequency. We also measured the phase shift of the oscillations in β Aql between SONG and TESS to be 113±7, which agrees with the value for the Sun and also with a 3D simulation of a star with similar properties to β Aql. Importantly for exoplanet searches, we argue that simultaneous photometry can be used to predict the contribution of oscillations to radial velocities. We measured frequencies for 22 oscillation modes in β Aql and carried out asteroseismic modelling, yielding an excellent fit to the frequencies. We derived accurate values for the mass and age, and were able to place quite strong constraints on the mixing-length parameter. Finally, we show that the oscillation properties of β Aql are very similar to stars in the open cluster M67.

KW - Stars: oscillations

UR - https://www.scopus.com/pages/publications/105012775088

U2 - 10.1051/0004-6361/202554633

DO - 10.1051/0004-6361/202554633

M3 - Article

AN - SCOPUS:105012775088

SN - 0004-6361

VL - 700

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A39

ER -

Asteroseismology of the G8 subgiant β Aquilae with SONG-Tenerife, SONG-Australia and TESS

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