Asteroseismology of the Nearby K Dwarf σ Draconis Using the Keck Planet Finder and TESS

Marc Hon; Daniel Huber; Yaguang Li; Travis S. Metcalfe; Timothy R. Bedding; Joel Ong; Ashley Chontos; Ryan Rubenzahl; Samuel Halverson; Rafael A. García; Hans Kjeldsen; Dennis Stello; Daniel R. Hey; Tiago Campante; Andrew W. Howard; Steven R. Gibson; Kodi Rider; Arpita Roy; Ashley D. Baker; Jerry Edelstein; Chris Smith; Benjamin J. Fulton; Josh Walawender; Max Brodheim; Matt Brown; Dwight Chan; Fei Dai; William Deich; Colby Gottschalk; Jason Grillo; Dave Hale; Grant M. Hill; Bradford Holden; Aaron Householder; Howard Isaacson; Yuzo Ishikawa; Sharon R. Jelinsky; Marc Kassis; Stephen Kaye; Russ Laher; Kyle Lanclos; Chien Hsiu Lee; Scott Lilley; Ben McCarney; Timothy N. Miller; Joel Payne; Erik A. Petigura; Claire Poppett; Michael Raffanti; Constance Rockosi; Dale Sanford; Christian Schwab; Abby P. Shaum; Martin M. Sirk; Roger Smith; Jim Thorne; John Valliant; Adam Vandenberg; Shin Ywan Wang; Edward Wishnow; Truman Wold; Sherry Yeh; Ashley Baker; Sarbani Basu; Megan Bedell; Heather M. Cegla; Ian Crossfield; Courtney Dressing; Xavier Dumusque; Heather Knutson; Dimitri Mawet; John O’Meara; Guđmundur Stefánsson; Johanna Teske; Gautam Vasisht; Sharon Xuesong Wang; Lauren M. Weiss; Joshua N. Winn; Jason T. Wright

doi:10.3847/1538-4357/ad76a9

Asteroseismology of the Nearby K Dwarf σ Draconis Using the Keck Planet Finder and TESS

Marc Hon, Daniel Huber, Yaguang Li, Travis S. Metcalfe, Timothy R. Bedding, Joel Ong, Ashley Chontos, Ryan Rubenzahl, Samuel Halverson, Rafael A. García, Hans Kjeldsen, Dennis Stello, Daniel R. Hey, Tiago Campante, Andrew W. Howard, Steven R. Gibson, Kodi Rider, Arpita Roy, Ashley D. Baker, Jerry EdelsteinChris Smith, Benjamin J. Fulton, Josh Walawender, Max Brodheim, Matt Brown, Dwight Chan, Fei Dai, William Deich, Colby Gottschalk, Jason Grillo, Dave Hale, Grant M. Hill, Bradford Holden, Aaron Householder, Howard Isaacson, Yuzo Ishikawa, Sharon R. Jelinsky, Marc Kassis, Stephen Kaye, Russ Laher, Kyle Lanclos, Chien Hsiu Lee, Scott Lilley, Ben McCarney, Timothy N. Miller, Joel Payne, Erik A. Petigura, Claire Poppett, Michael Raffanti, Constance Rockosi, Dale Sanford, Christian Schwab, Abby P. Shaum, Martin M. Sirk, Roger Smith, Jim Thorne, John Valliant, Adam Vandenberg, Shin Ywan Wang, Edward Wishnow, Truman Wold, Sherry Yeh, Ashley Baker, Sarbani Basu, Megan Bedell, Heather M. Cegla, Ian Crossfield, Courtney Dressing, Xavier Dumusque, Heather Knutson, Dimitri Mawet, John O’Meara, Guđmundur Stefánsson, Johanna Teske, Gautam Vasisht, Sharon Xuesong Wang, Lauren M. Weiss, Joshua N. Winn, Jason T. Wright

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

Abstract

Asteroseismology of dwarf stars cooler than the Sun is very challenging owing to the low amplitudes and rapid timescales of oscillations. Here we present the asteroseismic detection of solar-like oscillations at 4-minute timescales ( ν max ∼ 4300 μHz) in the nearby K dwarf σ Draconis using extreme-precision Doppler velocity observations from the Keck Planet Finder and 20 s cadence photometry from NASA’s Transiting Exoplanet Survey Satellite. The star is the coolest dwarf star to date with both velocity and luminosity observations of solar-like oscillations, having amplitudes of 5.9 ± 0.8 cm s⁻¹ and 0.8 ± 0.2 ppm, respectively. These measured values are in excellent agreement with established luminosity−velocity amplitude relations for oscillations and provide further evidence that mode amplitudes for stars with T _eff < 5500 K diminish in scale following an (L/M)^1.5 relation. By modeling the star’s oscillation frequencies from photometric data, we measure an asteroseismic age of 4.5 ± 0.9 (ran) ± 1.2 (sys) Gyr. The observations demonstrate the capability of next-generation spectrographs and precise space-based photometry to extend observational asteroseismology to nearby cool dwarfs, which are benchmarks for stellar astrophysics and prime targets for directly imaging planets using future space-based telescopes.

Original language	English (US)
Article number	147
Journal	Astrophysical Journal
Volume	975
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/ad76a9
State	Published - Nov 1 2024

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-4357/ad76a9

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Hon, M., Huber, D., Li, Y., Metcalfe, T. S., Bedding, T. R., Ong, J., Chontos, A., Rubenzahl, R., Halverson, S., García, R. A., Kjeldsen, H., Stello, D., Hey, D. R., Campante, T., Howard, A. W., Gibson, S. R., Rider, K., Roy, A., Baker, A. D., ... Wright, J. T. (2024). Asteroseismology of the Nearby K Dwarf σ Draconis Using the Keck Planet Finder and TESS. Astrophysical Journal, 975(1), Article 147. https://doi.org/10.3847/1538-4357/ad76a9

@article{bc1b5761452b4e8b95926736fbff63d3,

title = "Asteroseismology of the Nearby K Dwarf σ Draconis Using the Keck Planet Finder and TESS",

abstract = "Asteroseismology of dwarf stars cooler than the Sun is very challenging owing to the low amplitudes and rapid timescales of oscillations. Here we present the asteroseismic detection of solar-like oscillations at 4-minute timescales ( ν max ∼ 4300 μHz) in the nearby K dwarf σ Draconis using extreme-precision Doppler velocity observations from the Keck Planet Finder and 20 s cadence photometry from NASA{\textquoteright}s Transiting Exoplanet Survey Satellite. The star is the coolest dwarf star to date with both velocity and luminosity observations of solar-like oscillations, having amplitudes of 5.9 ± 0.8 cm s−1 and 0.8 ± 0.2 ppm, respectively. These measured values are in excellent agreement with established luminosity−velocity amplitude relations for oscillations and provide further evidence that mode amplitudes for stars with T eff < 5500 K diminish in scale following an (L/M)1.5 relation. By modeling the star{\textquoteright}s oscillation frequencies from photometric data, we measure an asteroseismic age of 4.5 ± 0.9 (ran) ± 1.2 (sys) Gyr. The observations demonstrate the capability of next-generation spectrographs and precise space-based photometry to extend observational asteroseismology to nearby cool dwarfs, which are benchmarks for stellar astrophysics and prime targets for directly imaging planets using future space-based telescopes.",

author = "Marc Hon and Daniel Huber and Yaguang Li and Metcalfe, {Travis S.} and Bedding, {Timothy R.} and Joel Ong and Ashley Chontos and Ryan Rubenzahl and Samuel Halverson and Garc{\'i}a, {Rafael A.} and Hans Kjeldsen and Dennis Stello and Hey, {Daniel R.} and Tiago Campante and Howard, {Andrew W.} and Gibson, {Steven R.} and Kodi Rider and Arpita Roy and Baker, {Ashley D.} and Jerry Edelstein and Chris Smith and Fulton, {Benjamin J.} and Josh Walawender and Max Brodheim and Matt Brown and Dwight Chan and Fei Dai and William Deich and Colby Gottschalk and Jason Grillo and Dave Hale and Hill, {Grant M.} and Bradford Holden and Aaron Householder and Howard Isaacson and Yuzo Ishikawa and Jelinsky, {Sharon R.} and Marc Kassis and Stephen Kaye and Russ Laher and Kyle Lanclos and Lee, {Chien Hsiu} and Scott Lilley and Ben McCarney and Miller, {Timothy N.} and Joel Payne and Petigura, {Erik A.} and Claire Poppett and Michael Raffanti and Constance Rockosi and Dale Sanford and Christian Schwab and Shaum, {Abby P.} and Sirk, {Martin M.} and Roger Smith and Jim Thorne and John Valliant and Adam Vandenberg and Wang, {Shin Ywan} and Edward Wishnow and Truman Wold and Sherry Yeh and Ashley Baker and Sarbani Basu and Megan Bedell and Cegla, {Heather M.} and Ian Crossfield and Courtney Dressing and Xavier Dumusque and Heather Knutson and Dimitri Mawet and John O{\textquoteright}Meara and Gu{\d}mundur Stef{\'a}nsson and Johanna Teske and Gautam Vasisht and Wang, {Sharon Xuesong} and Weiss, {Lauren M.} and Winn, {Joshua N.} and Wright, {Jason T.}",

note = "Publisher Copyright: {\textcopyright} 2024. The Author(s). Published by the American Astronomical Society.",

year = "2024",

month = nov,

day = "1",

doi = "10.3847/1538-4357/ad76a9",

language = "English (US)",

volume = "975",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "1",

}

Hon, M, Huber, D, Li, Y, Metcalfe, TS, Bedding, TR, Ong, J, Chontos, A, Rubenzahl, R, Halverson, S, García, RA, Kjeldsen, H, Stello, D, Hey, DR, Campante, T, Howard, AW, Gibson, SR, Rider, K, Roy, A, Baker, AD, Edelstein, J, Smith, C, Fulton, BJ, Walawender, J, Brodheim, M, Brown, M, Chan, D, Dai, F, Deich, W, Gottschalk, C, Grillo, J, Hale, D, Hill, GM, Holden, B, Householder, A, Isaacson, H, Ishikawa, Y, Jelinsky, SR, Kassis, M, Kaye, S, Laher, R, Lanclos, K, Lee, CH, Lilley, S, McCarney, B, Miller, TN, Payne, J, Petigura, EA, Poppett, C, Raffanti, M, Rockosi, C, Sanford, D, Schwab, C, Shaum, AP, Sirk, MM, Smith, R, Thorne, J, Valliant, J, Vandenberg, A, Wang, SY, Wishnow, E, Wold, T, Yeh, S, Baker, A, Basu, S, Bedell, M, Cegla, HM, Crossfield, I, Dressing, C, Dumusque, X, Knutson, H, Mawet, D, O’Meara, J, Stefánsson, G, Teske, J, Vasisht, G, Wang, SX, Weiss, LM, Winn, JN & Wright, JT 2024, 'Asteroseismology of the Nearby K Dwarf σ Draconis Using the Keck Planet Finder and TESS', Astrophysical Journal, vol. 975, no. 1, 147. https://doi.org/10.3847/1538-4357/ad76a9

TY - JOUR

T1 - Asteroseismology of the Nearby K Dwarf σ Draconis Using the Keck Planet Finder and TESS

AU - Hon, Marc

AU - Huber, Daniel

AU - Li, Yaguang

AU - Metcalfe, Travis S.

AU - Bedding, Timothy R.

AU - Ong, Joel

AU - Chontos, Ashley

AU - Rubenzahl, Ryan

AU - Halverson, Samuel

AU - García, Rafael A.

AU - Kjeldsen, Hans

AU - Stello, Dennis

AU - Hey, Daniel R.

AU - Campante, Tiago

AU - Howard, Andrew W.

AU - Gibson, Steven R.

AU - Rider, Kodi

AU - Roy, Arpita

AU - Baker, Ashley D.

AU - Edelstein, Jerry

AU - Smith, Chris

AU - Fulton, Benjamin J.

AU - Walawender, Josh

AU - Brodheim, Max

AU - Brown, Matt

AU - Chan, Dwight

AU - Dai, Fei

AU - Deich, William

AU - Gottschalk, Colby

AU - Grillo, Jason

AU - Hale, Dave

AU - Hill, Grant M.

AU - Holden, Bradford

AU - Householder, Aaron

AU - Isaacson, Howard

AU - Ishikawa, Yuzo

AU - Jelinsky, Sharon R.

AU - Kassis, Marc

AU - Kaye, Stephen

AU - Laher, Russ

AU - Lanclos, Kyle

AU - Lee, Chien Hsiu

AU - Lilley, Scott

AU - McCarney, Ben

AU - Miller, Timothy N.

AU - Payne, Joel

AU - Petigura, Erik A.

AU - Poppett, Claire

AU - Raffanti, Michael

AU - Rockosi, Constance

AU - Sanford, Dale

AU - Schwab, Christian

AU - Shaum, Abby P.

AU - Sirk, Martin M.

AU - Smith, Roger

AU - Thorne, Jim

AU - Valliant, John

AU - Vandenberg, Adam

AU - Wang, Shin Ywan

AU - Wishnow, Edward

AU - Wold, Truman

AU - Yeh, Sherry

AU - Baker, Ashley

AU - Basu, Sarbani

AU - Bedell, Megan

AU - Cegla, Heather M.

AU - Crossfield, Ian

AU - Dressing, Courtney

AU - Dumusque, Xavier

AU - Knutson, Heather

AU - Mawet, Dimitri

AU - O’Meara, John

AU - Stefánsson, Guđmundur

AU - Teske, Johanna

AU - Vasisht, Gautam

AU - Wang, Sharon Xuesong

AU - Weiss, Lauren M.

AU - Winn, Joshua N.

AU - Wright, Jason T.

PY - 2024/11/1

Y1 - 2024/11/1

N2 - Asteroseismology of dwarf stars cooler than the Sun is very challenging owing to the low amplitudes and rapid timescales of oscillations. Here we present the asteroseismic detection of solar-like oscillations at 4-minute timescales ( ν max ∼ 4300 μHz) in the nearby K dwarf σ Draconis using extreme-precision Doppler velocity observations from the Keck Planet Finder and 20 s cadence photometry from NASA’s Transiting Exoplanet Survey Satellite. The star is the coolest dwarf star to date with both velocity and luminosity observations of solar-like oscillations, having amplitudes of 5.9 ± 0.8 cm s−1 and 0.8 ± 0.2 ppm, respectively. These measured values are in excellent agreement with established luminosity−velocity amplitude relations for oscillations and provide further evidence that mode amplitudes for stars with T eff < 5500 K diminish in scale following an (L/M)1.5 relation. By modeling the star’s oscillation frequencies from photometric data, we measure an asteroseismic age of 4.5 ± 0.9 (ran) ± 1.2 (sys) Gyr. The observations demonstrate the capability of next-generation spectrographs and precise space-based photometry to extend observational asteroseismology to nearby cool dwarfs, which are benchmarks for stellar astrophysics and prime targets for directly imaging planets using future space-based telescopes.

AB - Asteroseismology of dwarf stars cooler than the Sun is very challenging owing to the low amplitudes and rapid timescales of oscillations. Here we present the asteroseismic detection of solar-like oscillations at 4-minute timescales ( ν max ∼ 4300 μHz) in the nearby K dwarf σ Draconis using extreme-precision Doppler velocity observations from the Keck Planet Finder and 20 s cadence photometry from NASA’s Transiting Exoplanet Survey Satellite. The star is the coolest dwarf star to date with both velocity and luminosity observations of solar-like oscillations, having amplitudes of 5.9 ± 0.8 cm s−1 and 0.8 ± 0.2 ppm, respectively. These measured values are in excellent agreement with established luminosity−velocity amplitude relations for oscillations and provide further evidence that mode amplitudes for stars with T eff < 5500 K diminish in scale following an (L/M)1.5 relation. By modeling the star’s oscillation frequencies from photometric data, we measure an asteroseismic age of 4.5 ± 0.9 (ran) ± 1.2 (sys) Gyr. The observations demonstrate the capability of next-generation spectrographs and precise space-based photometry to extend observational asteroseismology to nearby cool dwarfs, which are benchmarks for stellar astrophysics and prime targets for directly imaging planets using future space-based telescopes.

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DO - 10.3847/1538-4357/ad76a9

M3 - Article

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SN - 0004-637X

VL - 975

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 147

ER -

Asteroseismology of the Nearby K Dwarf σ Draconis Using the Keck Planet Finder and TESS

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