Detection and Characterization of Oscillating Red Giants: first results from the TESS satellite

Víctor Silva Aguirre; Dennis Stello; Amalie Stokholm; Jakob R. Mosumgaard; Warrick Ball; Sarbani Basu; Diego Bossini; Lisa Bugnet; Derek Buzasi; Tiago L. Campante; Lindsey Carboneau; William J. Chaplin; Enrico Corsaro; Guy R. Davies; Yvonne Elsworth; Rafael A. García; Patrick Gaulme; Oliver J. Hall; Rasmus Handberg; Marc Hon; Thomas Kallinger; Liu Kang; Mikkel N. Lund; Savita Mathur; Alexey Mints; Benoit Mosser; Zeynep Çelik Orhan; Thaíse S. Rodrigues; Mathieu Vrard; Mutlu Yıldız; Joel C. Zinn; Sibel Örtel; Paul G. Beck; Keaton J. Bell; Zhao Guo; Chen Jiang; James S. Kuszlewicz; Charles A. Kuehn; Tanda Li; Mia S. Lundkvist; Marc Pinsonneault; Jamie Tayar; Margarida S. Cunha; Saskia Hekker; Daniel Huber; Andrea Miglio; Mario J. P. F. G. Monteiro; Ditte Slumstrup; Mark L. Winther; George Angelou; Othman Benomar; Attila Bódi; Bruno L. De Moura; Sébastien Deheuvels; Aliz Derekas; Maria Pia Di Mauro; Marc-Antoine Dupret; Antonio Jiménez; Yveline Lebreton; Jaymie Matthews; Nicolas Nardetto; Jr Jose D. do Nascimento; Filipe Pereira; Luisa F. Rodríguez Díaz; Aldo M. Serenelli; Emanuele Spitoni; Edita Stonkutė; Juan Carlos Suárez; Robert Szabó; Vincent Van Eylen; Rita Ventura; Kuldeep Verma; Achim Weiss; Tao Wu; Thomas Barclay; Jørgen Christensen-Dalsgaard; Jon M. Jenkins; Hans Kjeldsen; George R. Ricker; Sara Seager; Roland Vanderspek

doi:10.3847/2041-8213/ab6443

Detection and Characterization of Oscillating Red Giants: first results from the TESS satellite

Víctor Silva Aguirre, Dennis Stello, Amalie Stokholm, Jakob R. Mosumgaard, Warrick Ball, Sarbani Basu, Diego Bossini, Lisa Bugnet, Derek Buzasi, Tiago L. Campante, Lindsey Carboneau, William J. Chaplin, Enrico Corsaro, Guy R. Davies, Yvonne Elsworth, Rafael A. García, Patrick Gaulme, Oliver J. Hall, Rasmus Handberg, Marc HonThomas Kallinger, Liu Kang, Mikkel N. Lund, Savita Mathur, Alexey Mints, Benoit Mosser, Zeynep Çelik Orhan, Thaíse S. Rodrigues, Mathieu Vrard, Mutlu Yıldız, Joel C. Zinn, Sibel Örtel, Paul G. Beck, Keaton J. Bell, Zhao Guo, Chen Jiang, James S. Kuszlewicz, Charles A. Kuehn, Tanda Li, Mia S. Lundkvist, Marc Pinsonneault, Jamie Tayar, Margarida S. Cunha, Saskia Hekker, Daniel Huber, Andrea Miglio, Mario J. P. F. G. Monteiro, Ditte Slumstrup, Mark L. Winther, George Angelou, Othman Benomar, Attila Bódi, Bruno L. De Moura, Sébastien Deheuvels, Aliz Derekas, Maria Pia Di Mauro, Marc-Antoine Dupret, Antonio Jiménez, Yveline Lebreton, Jaymie Matthews, Nicolas Nardetto, Jr Jose D. do Nascimento, Filipe Pereira, Luisa F. Rodríguez Díaz, Aldo M. Serenelli, Emanuele Spitoni, Edita Stonkutė, Juan Carlos Suárez, Robert Szabó, Vincent Van Eylen, Rita Ventura, Kuldeep Verma, Achim Weiss, Tao Wu, Thomas Barclay, Jørgen Christensen-Dalsgaard, Jon M. Jenkins, Hans Kjeldsen, George R. Ricker, Sara Seager, Roland Vanderspek

Physics and Astronomy

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

6 Citations (Scopus)

Abstract

Since the onset of the "space revolution" of high-precision high-cadence photometry, asteroseismology has been demonstrated as a powerful tool for informing Galactic archeology investigations. The launch of the NASA Transiting Exoplanet Survey Satellite (TESS) mission has enabled seismic-based inferences to go full sky-providing a clear advantage for large ensemble studies of the different Milky Way components. Here we demonstrate its potential for investigating the Galaxy by carrying out the first asteroseismic ensemble study of red giant stars observed by TESS. We use a sample of 25 stars for which we measure their global asteroseimic observables and estimate their fundamental stellar properties, such as radius, mass, and age. Significant improvements are seen in the uncertainties of our estimates when combining seismic observables from TESS with astrometric measurements from the Gaia mission compared to when the seismology and astrometry are applied separately. Specifically, when combined we show that stellar radii can be determined to a precision of a few percent, masses to 5%-10%, and ages to the 20% level. This is comparable to the precision typically obtained using end-of-mission Kepler data.

Original language	English
Article number	L34
Journal	Astrophysical Journal Letters
Volume	889
Issue number	2
DOIs	https://doi.org/10.3847/2041-8213/ab6443
Publication status	Published - 29 Jan 2020

Bibliographical note

Accepted for publication in ApJ Letters

Keywords

astro-ph.SR
astro-ph.GA

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

Access to Document

10.3847/2041-8213/ab6443

Cite this

Aguirre, V. S., Stello, D., Stokholm, A., Mosumgaard, J. R., Ball, W., Basu, S., Bossini, D., Bugnet, L., Buzasi, D., Campante, T. L., Carboneau, L., Chaplin, W. J., Corsaro, E., Davies, G. R., Elsworth, Y., García, R. A., Gaulme, P., Hall, O. J., Handberg, R., ... Vanderspek, R. (2020). Detection and Characterization of Oscillating Red Giants: first results from the TESS satellite. Astrophysical Journal Letters, 889(2), Article L34. https://doi.org/10.3847/2041-8213/ab6443

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title = "Detection and Characterization of Oscillating Red Giants: first results from the TESS satellite",

abstract = "Since the onset of the {"}space revolution{"} of high-precision high-cadence photometry, asteroseismology has been demonstrated as a powerful tool for informing Galactic archeology investigations. The launch of the NASA Transiting Exoplanet Survey Satellite (TESS) mission has enabled seismic-based inferences to go full sky-providing a clear advantage for large ensemble studies of the different Milky Way components. Here we demonstrate its potential for investigating the Galaxy by carrying out the first asteroseismic ensemble study of red giant stars observed by TESS. We use a sample of 25 stars for which we measure their global asteroseimic observables and estimate their fundamental stellar properties, such as radius, mass, and age. Significant improvements are seen in the uncertainties of our estimates when combining seismic observables from TESS with astrometric measurements from the Gaia mission compared to when the seismology and astrometry are applied separately. Specifically, when combined we show that stellar radii can be determined to a precision of a few percent, masses to 5%-10%, and ages to the 20% level. This is comparable to the precision typically obtained using end-of-mission Kepler data.",

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author = "Aguirre, {V{\'i}ctor Silva} and Dennis Stello and Amalie Stokholm and Mosumgaard, {Jakob R.} and Warrick Ball and Sarbani Basu and Diego Bossini and Lisa Bugnet and Derek Buzasi and Campante, {Tiago L.} and Lindsey Carboneau and Chaplin, {William J.} and Enrico Corsaro and Davies, {Guy R.} and Yvonne Elsworth and Garc{\'i}a, {Rafael A.} and Patrick Gaulme and Hall, {Oliver J.} and Rasmus Handberg and Marc Hon and Thomas Kallinger and Liu Kang and Lund, {Mikkel N.} and Savita Mathur and Alexey Mints and Benoit Mosser and Orhan, {Zeynep {\c C}elik} and Rodrigues, {Tha{\'i}se S.} and Mathieu Vrard and Mutlu Yıldız and Zinn, {Joel C.} and Sibel {\"O}rtel and Beck, {Paul G.} and Bell, {Keaton J.} and Zhao Guo and Chen Jiang and Kuszlewicz, {James S.} and Kuehn, {Charles A.} and Tanda Li and Lundkvist, {Mia S.} and Marc Pinsonneault and Jamie Tayar and Cunha, {Margarida S.} and Saskia Hekker and Daniel Huber and Andrea Miglio and Monteiro, {Mario J. P. F. G.} and Ditte Slumstrup and Winther, {Mark L.} and George Angelou and Othman Benomar and Attila B{\'o}di and Moura, {Bruno L. De} and S{\'e}bastien Deheuvels and Aliz Derekas and Mauro, {Maria Pia Di} and Marc-Antoine Dupret and Antonio Jim{\'e}nez and Yveline Lebreton and Jaymie Matthews and Nicolas Nardetto and {Jose D. do Nascimento}, Jr and Filipe Pereira and D{\'i}az, {Luisa F. Rodr{\'i}guez} and Serenelli, {Aldo M.} and Emanuele Spitoni and Edita Stonkutė and Su{\'a}rez, {Juan Carlos} and Robert Szab{\'o} and Eylen, {Vincent Van} and Rita Ventura and Kuldeep Verma and Achim Weiss and Tao Wu and Thomas Barclay and J{\o}rgen Christensen-Dalsgaard and Jenkins, {Jon M.} and Hans Kjeldsen and Ricker, {George R.} and Sara Seager and Roland Vanderspek",

note = "Accepted for publication in ApJ Letters",

year = "2020",

month = jan,

day = "29",

doi = "10.3847/2041-8213/ab6443",

language = "English",

volume = "889",

journal = "Astrophysical Journal Letters",

issn = "2041-8205",

publisher = "Institute of Physics Publishing Ltd",

number = "2",

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Aguirre, VS, Stello, D, Stokholm, A, Mosumgaard, JR, Ball, W, Basu, S, Bossini, D, Bugnet, L, Buzasi, D, Campante, TL, Carboneau, L, Chaplin, WJ, Corsaro, E, Davies, GR , Elsworth, Y, García, RA, Gaulme, P, Hall, OJ, Handberg, R, Hon, M, Kallinger, T, Kang, L, Lund, MN, Mathur, S, Mints, A, Mosser, B, Orhan, ZÇ, Rodrigues, TS, Vrard, M, Yıldız, M, Zinn, JC, Örtel, S, Beck, PG, Bell, KJ, Guo, Z, Jiang, C, Kuszlewicz, JS, Kuehn, CA, Li, T, Lundkvist, MS, Pinsonneault, M, Tayar, J, Cunha, MS, Hekker, S, Huber, D, Miglio, A, Monteiro, MJPFG, Slumstrup, D, Winther, ML, Angelou, G, Benomar, O, Bódi, A, Moura, BLD, Deheuvels, S, Derekas, A, Mauro, MPD, Dupret, M-A, Jiménez, A, Lebreton, Y, Matthews, J, Nardetto, N, Jose D. do Nascimento, J, Pereira, F, Díaz, LFR, Serenelli, AM, Spitoni, E, Stonkutė, E, Suárez, JC, Szabó, R, Eylen, VV, Ventura, R, Verma, K, Weiss, A, Wu, T, Barclay, T, Christensen-Dalsgaard, J, Jenkins, JM, Kjeldsen, H, Ricker, GR, Seager, S & Vanderspek, R 2020, 'Detection and Characterization of Oscillating Red Giants: first results from the TESS satellite', Astrophysical Journal Letters, vol. 889, no. 2, L34. https://doi.org/10.3847/2041-8213/ab6443

TY - JOUR

T1 - Detection and Characterization of Oscillating Red Giants

T2 - first results from the TESS satellite

AU - Aguirre, Víctor Silva

AU - Stello, Dennis

AU - Stokholm, Amalie

AU - Mosumgaard, Jakob R.

AU - Ball, Warrick

AU - Basu, Sarbani

AU - Bossini, Diego

AU - Bugnet, Lisa

AU - Buzasi, Derek

AU - Campante, Tiago L.

AU - Carboneau, Lindsey

AU - Chaplin, William J.

AU - Corsaro, Enrico

AU - Davies, Guy R.

AU - Elsworth, Yvonne

AU - García, Rafael A.

AU - Gaulme, Patrick

AU - Hall, Oliver J.

AU - Handberg, Rasmus

AU - Hon, Marc

AU - Kallinger, Thomas

AU - Kang, Liu

AU - Lund, Mikkel N.

AU - Mathur, Savita

AU - Mints, Alexey

AU - Mosser, Benoit

AU - Orhan, Zeynep Çelik

AU - Rodrigues, Thaíse S.

AU - Vrard, Mathieu

AU - Yıldız, Mutlu

AU - Zinn, Joel C.

AU - Örtel, Sibel

AU - Beck, Paul G.

AU - Bell, Keaton J.

AU - Guo, Zhao

AU - Jiang, Chen

AU - Kuszlewicz, James S.

AU - Kuehn, Charles A.

AU - Li, Tanda

AU - Lundkvist, Mia S.

AU - Pinsonneault, Marc

AU - Tayar, Jamie

AU - Cunha, Margarida S.

AU - Hekker, Saskia

AU - Huber, Daniel

AU - Miglio, Andrea

AU - Monteiro, Mario J. P. F. G.

AU - Slumstrup, Ditte

AU - Winther, Mark L.

AU - Angelou, George

AU - Benomar, Othman

AU - Bódi, Attila

AU - Moura, Bruno L. De

AU - Deheuvels, Sébastien

AU - Derekas, Aliz

AU - Mauro, Maria Pia Di

AU - Dupret, Marc-Antoine

AU - Jiménez, Antonio

AU - Lebreton, Yveline

AU - Matthews, Jaymie

AU - Nardetto, Nicolas

AU - Jose D. do Nascimento, Jr

AU - Pereira, Filipe

AU - Díaz, Luisa F. Rodríguez

AU - Serenelli, Aldo M.

AU - Spitoni, Emanuele

AU - Stonkutė, Edita

AU - Suárez, Juan Carlos

AU - Szabó, Robert

AU - Eylen, Vincent Van

AU - Ventura, Rita

AU - Verma, Kuldeep

AU - Weiss, Achim

AU - Wu, Tao

AU - Barclay, Thomas

AU - Christensen-Dalsgaard, Jørgen

AU - Jenkins, Jon M.

AU - Kjeldsen, Hans

AU - Ricker, George R.

AU - Seager, Sara

AU - Vanderspek, Roland

N1 - Accepted for publication in ApJ Letters

PY - 2020/1/29

Y1 - 2020/1/29

N2 - Since the onset of the "space revolution" of high-precision high-cadence photometry, asteroseismology has been demonstrated as a powerful tool for informing Galactic archeology investigations. The launch of the NASA Transiting Exoplanet Survey Satellite (TESS) mission has enabled seismic-based inferences to go full sky-providing a clear advantage for large ensemble studies of the different Milky Way components. Here we demonstrate its potential for investigating the Galaxy by carrying out the first asteroseismic ensemble study of red giant stars observed by TESS. We use a sample of 25 stars for which we measure their global asteroseimic observables and estimate their fundamental stellar properties, such as radius, mass, and age. Significant improvements are seen in the uncertainties of our estimates when combining seismic observables from TESS with astrometric measurements from the Gaia mission compared to when the seismology and astrometry are applied separately. Specifically, when combined we show that stellar radii can be determined to a precision of a few percent, masses to 5%-10%, and ages to the 20% level. This is comparable to the precision typically obtained using end-of-mission Kepler data.

AB - Since the onset of the "space revolution" of high-precision high-cadence photometry, asteroseismology has been demonstrated as a powerful tool for informing Galactic archeology investigations. The launch of the NASA Transiting Exoplanet Survey Satellite (TESS) mission has enabled seismic-based inferences to go full sky-providing a clear advantage for large ensemble studies of the different Milky Way components. Here we demonstrate its potential for investigating the Galaxy by carrying out the first asteroseismic ensemble study of red giant stars observed by TESS. We use a sample of 25 stars for which we measure their global asteroseimic observables and estimate their fundamental stellar properties, such as radius, mass, and age. Significant improvements are seen in the uncertainties of our estimates when combining seismic observables from TESS with astrometric measurements from the Gaia mission compared to when the seismology and astrometry are applied separately. Specifically, when combined we show that stellar radii can be determined to a precision of a few percent, masses to 5%-10%, and ages to the 20% level. This is comparable to the precision typically obtained using end-of-mission Kepler data.

KW - astro-ph.SR

KW - astro-ph.GA

UR - http://www.scopus.com/inward/record.url?scp=85081355166&partnerID=8YFLogxK

U2 - 10.3847/2041-8213/ab6443

DO - 10.3847/2041-8213/ab6443

M3 - Article

SN - 2041-8205

VL - 889

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 2

M1 - L34

ER -

Detection and Characterization of Oscillating Red Giants: first results from the TESS satellite

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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