THE κ andromedae system: New constraints on the companion mass, system age, and further multiplicity

Sasha Hinkley; Laurent Pueyo; Jacqueline K. Faherty; Ben R. Oppenheimer; Eric E. Mamajek; Adam L. Kraus; Emily L. Rice; Michael J. Ireland; Trevor David; Lynne A. Hillenbrand; Gautam Vasisht; Eric Cady; Douglas Brenner; Aaron Veicht; Ricky Nilsson; Neil Zimmerman; Ian R. Parry; Charles Beichman; Richard Dekany; Jennifer E. Roberts; Lewis C. Roberts; Christoph Baranec; Justin R. Crepp; Rick Burruss; J. Kent Wallace; David King; Chengxing Zhai; Thomas Lockhart; Michael Shao; Rémi Soummer; Anand Sivaramakrishnan; Louis A. Wilson

doi:10.1088/0004-637X/779/2/153

THE κ andromedae system: New constraints on the companion mass, system age, and further multiplicity

Sasha Hinkley^*, Laurent Pueyo, Jacqueline K. Faherty, Ben R. Oppenheimer, Eric E. Mamajek, Adam L. Kraus, Emily L. Rice, Michael J. Ireland, Trevor David, Lynne A. Hillenbrand, Gautam Vasisht, Eric Cady, Douglas Brenner, Aaron Veicht, Ricky Nilsson, Neil Zimmerman, Ian R. Parry, Charles Beichman, Richard Dekany, Jennifer E. RobertsLewis C. Roberts, Christoph Baranec, Justin R. Crepp, Rick Burruss, J. Kent Wallace, David King, Chengxing Zhai, Thomas Lockhart, Michael Shao, Rémi Soummer, Anand Sivaramakrishnan, Louis A. Wilson

^*Corresponding author for this work

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

61 Citations (Scopus)

Abstract

κ Andromedae is a B9IVn star at 52 pc for which a faint substellar companion separated by 55 ± 2 AU was recently announced. In this work, we present the first spectrum of the companion, "κ And B," using the Project 1640 high-contrast imaging platform. Comparison of our low-resolution YJH-band spectra to empirical brown dwarf spectra suggests an early-L spectral type. Fitting synthetic spectra from PHOENIX model atmospheres to our observed spectrum allows us to constrain the effective temperature to 2000 K as well as place constraints on the companion surface gravity. Further, we use previously reported log(g) and T_eff measurements of the host star to argue that the κ And system has an isochronal age of 220 ± 100 Myr, older than the 30 Myr age reported previously. This interpretation of an older age is corroborated by the photometric properties of κ And B, which appear to be marginally inconsistent with other 10-100 Myr low-gravity L-dwarfs for the spectral type range we derive. In addition, we use Keck aperture masking interferometry combined with published radial velocity measurements to rule out the existence of any tight stellar companions to κ And A that might be responsible for the system's overluminosity. Further, we show that luminosity enhancements due to a nearly "pole-on" viewing angle coupled with extremely rapid rotation is unlikely. κ And A is thus consistent with its slightly evolved luminosity class (IV), and we propose here that κ And, with a revised age of 220 ± 100 Myr, is an interloper to the 30 Myr Columba association with which it was previously associated. The photometric and spectroscopic evidence for κ And B combined with our reassessment of the system age implies a substellar companion mass of 50 M _Jup, consistent with a brown dwarf rather than a planetary-mass companion.

Original language	English
Article number	153
Journal	Astrophysical Journal
Volume	779
Issue number	2
DOIs	https://doi.org/10.1088/0004-637X/779/2/153
Publication status	Published - 20 Dec 2013
Externally published	Yes

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Hinkley, S., Pueyo, L., Faherty, J. K., Oppenheimer, B. R., Mamajek, E. E., Kraus, A. L., Rice, E. L., Ireland, M. J., David, T., Hillenbrand, L. A., Vasisht, G., Cady, E., Brenner, D., Veicht, A., Nilsson, R., Zimmerman, N., Parry, I. R., Beichman, C., Dekany, R., ... Wilson, L. A. (2013). THE κ andromedae system: New constraints on the companion mass, system age, and further multiplicity. Astrophysical Journal, 779(2), Article 153. https://doi.org/10.1088/0004-637X/779/2/153

@article{8fbcaee7a179407e9090d61e5aaf2e6c,

title = "THE κ andromedae system: New constraints on the companion mass, system age, and further multiplicity",

abstract = "κ Andromedae is a B9IVn star at 52 pc for which a faint substellar companion separated by 55 ± 2 AU was recently announced. In this work, we present the first spectrum of the companion, {"}κ And B,{"} using the Project 1640 high-contrast imaging platform. Comparison of our low-resolution YJH-band spectra to empirical brown dwarf spectra suggests an early-L spectral type. Fitting synthetic spectra from PHOENIX model atmospheres to our observed spectrum allows us to constrain the effective temperature to 2000 K as well as place constraints on the companion surface gravity. Further, we use previously reported log(g) and Teff measurements of the host star to argue that the κ And system has an isochronal age of 220 ± 100 Myr, older than the 30 Myr age reported previously. This interpretation of an older age is corroborated by the photometric properties of κ And B, which appear to be marginally inconsistent with other 10-100 Myr low-gravity L-dwarfs for the spectral type range we derive. In addition, we use Keck aperture masking interferometry combined with published radial velocity measurements to rule out the existence of any tight stellar companions to κ And A that might be responsible for the system's overluminosity. Further, we show that luminosity enhancements due to a nearly {"}pole-on{"} viewing angle coupled with extremely rapid rotation is unlikely. κ And A is thus consistent with its slightly evolved luminosity class (IV), and we propose here that κ And, with a revised age of 220 ± 100 Myr, is an interloper to the 30 Myr Columba association with which it was previously associated. The photometric and spectroscopic evidence for κ And B combined with our reassessment of the system age implies a substellar companion mass of 50 M Jup, consistent with a brown dwarf rather than a planetary-mass companion.",

keywords = "instrumentation: adaptive optics, instrumentation: interferometers, planetary systems, planets and satellites: detection, stars: individual (κ Andromedae), techniques: high angular resolution",

author = "Sasha Hinkley and Laurent Pueyo and Faherty, {Jacqueline K.} and Oppenheimer, {Ben R.} and Mamajek, {Eric E.} and Kraus, {Adam L.} and Rice, {Emily L.} and Ireland, {Michael J.} and Trevor David and Hillenbrand, {Lynne A.} and Gautam Vasisht and Eric Cady and Douglas Brenner and Aaron Veicht and Ricky Nilsson and Neil Zimmerman and Parry, {Ian R.} and Charles Beichman and Richard Dekany and Roberts, {Jennifer E.} and Roberts, {Lewis C.} and Christoph Baranec and Crepp, {Justin R.} and Rick Burruss and Wallace, {J. Kent} and David King and Chengxing Zhai and Thomas Lockhart and Michael Shao and R{\'e}mi Soummer and Anand Sivaramakrishnan and Wilson, {Louis A.}",

year = "2013",

month = dec,

day = "20",

doi = "10.1088/0004-637X/779/2/153",

language = "English",

volume = "779",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "2",

}

Hinkley, S, Pueyo, L, Faherty, JK, Oppenheimer, BR, Mamajek, EE, Kraus, AL, Rice, EL, Ireland, MJ, David, T, Hillenbrand, LA, Vasisht, G, Cady, E, Brenner, D, Veicht, A, Nilsson, R, Zimmerman, N, Parry, IR, Beichman, C, Dekany, R, Roberts, JE, Roberts, LC, Baranec, C, Crepp, JR, Burruss, R, Wallace, JK, King, D, Zhai, C, Lockhart, T, Shao, M, Soummer, R, Sivaramakrishnan, A & Wilson, LA 2013, 'THE κ andromedae system: New constraints on the companion mass, system age, and further multiplicity', Astrophysical Journal, vol. 779, no. 2, 153. https://doi.org/10.1088/0004-637X/779/2/153

TY - JOUR

T1 - THE κ andromedae system

T2 - New constraints on the companion mass, system age, and further multiplicity

AU - Hinkley, Sasha

AU - Pueyo, Laurent

AU - Faherty, Jacqueline K.

AU - Oppenheimer, Ben R.

AU - Mamajek, Eric E.

AU - Kraus, Adam L.

AU - Rice, Emily L.

AU - Ireland, Michael J.

AU - David, Trevor

AU - Hillenbrand, Lynne A.

AU - Vasisht, Gautam

AU - Cady, Eric

AU - Brenner, Douglas

AU - Veicht, Aaron

AU - Nilsson, Ricky

AU - Zimmerman, Neil

AU - Parry, Ian R.

AU - Beichman, Charles

AU - Dekany, Richard

AU - Roberts, Jennifer E.

AU - Roberts, Lewis C.

AU - Baranec, Christoph

AU - Crepp, Justin R.

AU - Burruss, Rick

AU - Wallace, J. Kent

AU - King, David

AU - Zhai, Chengxing

AU - Lockhart, Thomas

AU - Shao, Michael

AU - Soummer, Rémi

AU - Sivaramakrishnan, Anand

AU - Wilson, Louis A.

PY - 2013/12/20

Y1 - 2013/12/20

N2 - κ Andromedae is a B9IVn star at 52 pc for which a faint substellar companion separated by 55 ± 2 AU was recently announced. In this work, we present the first spectrum of the companion, "κ And B," using the Project 1640 high-contrast imaging platform. Comparison of our low-resolution YJH-band spectra to empirical brown dwarf spectra suggests an early-L spectral type. Fitting synthetic spectra from PHOENIX model atmospheres to our observed spectrum allows us to constrain the effective temperature to 2000 K as well as place constraints on the companion surface gravity. Further, we use previously reported log(g) and Teff measurements of the host star to argue that the κ And system has an isochronal age of 220 ± 100 Myr, older than the 30 Myr age reported previously. This interpretation of an older age is corroborated by the photometric properties of κ And B, which appear to be marginally inconsistent with other 10-100 Myr low-gravity L-dwarfs for the spectral type range we derive. In addition, we use Keck aperture masking interferometry combined with published radial velocity measurements to rule out the existence of any tight stellar companions to κ And A that might be responsible for the system's overluminosity. Further, we show that luminosity enhancements due to a nearly "pole-on" viewing angle coupled with extremely rapid rotation is unlikely. κ And A is thus consistent with its slightly evolved luminosity class (IV), and we propose here that κ And, with a revised age of 220 ± 100 Myr, is an interloper to the 30 Myr Columba association with which it was previously associated. The photometric and spectroscopic evidence for κ And B combined with our reassessment of the system age implies a substellar companion mass of 50 M Jup, consistent with a brown dwarf rather than a planetary-mass companion.

AB - κ Andromedae is a B9IVn star at 52 pc for which a faint substellar companion separated by 55 ± 2 AU was recently announced. In this work, we present the first spectrum of the companion, "κ And B," using the Project 1640 high-contrast imaging platform. Comparison of our low-resolution YJH-band spectra to empirical brown dwarf spectra suggests an early-L spectral type. Fitting synthetic spectra from PHOENIX model atmospheres to our observed spectrum allows us to constrain the effective temperature to 2000 K as well as place constraints on the companion surface gravity. Further, we use previously reported log(g) and Teff measurements of the host star to argue that the κ And system has an isochronal age of 220 ± 100 Myr, older than the 30 Myr age reported previously. This interpretation of an older age is corroborated by the photometric properties of κ And B, which appear to be marginally inconsistent with other 10-100 Myr low-gravity L-dwarfs for the spectral type range we derive. In addition, we use Keck aperture masking interferometry combined with published radial velocity measurements to rule out the existence of any tight stellar companions to κ And A that might be responsible for the system's overluminosity. Further, we show that luminosity enhancements due to a nearly "pole-on" viewing angle coupled with extremely rapid rotation is unlikely. κ And A is thus consistent with its slightly evolved luminosity class (IV), and we propose here that κ And, with a revised age of 220 ± 100 Myr, is an interloper to the 30 Myr Columba association with which it was previously associated. The photometric and spectroscopic evidence for κ And B combined with our reassessment of the system age implies a substellar companion mass of 50 M Jup, consistent with a brown dwarf rather than a planetary-mass companion.

KW - instrumentation: adaptive optics

KW - instrumentation: interferometers

KW - planetary systems

KW - planets and satellites: detection

KW - stars: individual (κ Andromedae)

KW - techniques: high angular resolution

UR - http://www.scopus.com/inward/record.url?scp=84890057632&partnerID=8YFLogxK

U2 - 10.1088/0004-637X/779/2/153

DO - 10.1088/0004-637X/779/2/153

M3 - Article

SN - 0004-637X

VL - 779

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 153

ER -

THE κ andromedae system: New constraints on the companion mass, system age, and further multiplicity

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