Isochronal age-mass discrepancy of young stars: SCExAO/CHARIS integral field spectroscopy of the HIP 79124 triple system

Ruben Asensio-Torres; Thayne Currie; Markus Janson; Silvano Desidera; Masayuki Kuzuhara; Klaus Hodapp; Timothy D. Brandt; Olivier Guyon; Julien Lozi; Tyler Groff; Jeremy Kasdin; Jeffrey Chilcote; Nemanja Jovanovic; Frantz Martinache; Michael Sitko; Eugene Serabyn; Kevin Wagner; Eiji Akiyama; Jungmi Kwon; Taichi Uyama; Yi Yang; Takao Nakagawa; Masahiko Hayashi; Michael McElwain; Tomoyuki Kudo; Thomas Henning; Motohide Tamura

Isochronal age-mass discrepancy of young stars: SCExAO/CHARIS integral field spectroscopy of the HIP 79124 triple system

Ruben Asensio-Torres, Thayne Currie, Markus Janson, Silvano Desidera, Masayuki Kuzuhara, Klaus Hodapp, Timothy D. Brandt, Olivier Guyon, Julien Lozi, Tyler Groff, Jeremy Kasdin, Jeffrey Chilcote, Nemanja Jovanovic, Frantz Martinache, Michael Sitko, Eugene Serabyn, Kevin Wagner, Eiji Akiyama, Jungmi Kwon, Taichi UyamaYi Yang, Takao Nakagawa, Masahiko Hayashi, Michael McElwain, Tomoyuki Kudo, Thomas Henning, Motohide Tamura

Steward Observatory

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

Abstract

We present SCExAO/CHARIS 1.1–2.4 µm integral field direct spectroscopy of the young HIP 79124 triple system. HIP 79124 is a member of the Scorpius-Centaurus association, consisting of an A0V primary with two low-mass companions at a projected separation of <1 ⁰⁰. Thanks to the high quality wavefront corrections provided by SCExAO, both companions are decisively detected without the employment of any PSF-subtraction algorithm to eliminate quasi-static noise. The spectrum of the outer C object is very well matched by Upper Scorpius M4 ± 0.5 standard spectra, with a T_eff = 2945 ± 100 K and a mass of ∼ 350 M_Jup. HIP 79124 B is detected at a separation of only 180 mas in a highly-correlated noise regime, and it falls in the spectral range M6 ± 0.5 with T_eff = 2840 ± 190 K and ∼ 100 M_Jup. Previous studies of stellar populations in Sco-Cen have highlighted a discrepancy in isochronal ages between the lower-mass and higher-mass populations. This could be explained either by an age spread in the region, or by conventional isochronal models failing to reproduce the evolution of low-mass stars. The HIP 79124 system should be coeval, and therefore it provides an ideal laboratory to test these scenarios. We place the three components in a color-magnitude diagram and find that the models predict a younger age for the two low-mass companions (∼ 3 Myr) than for the primary star (∼ 6 Myr). These results imply that the omission of magnetic effects in conventional isochronal models inhibit them from reproducing early low-mass stellar evolution, which is further supported by the fact that new models that include such effects provide more consistent ages in the HIP 79124 system.

Original language	English (US)
Journal	Unknown Journal
State	Published - Nov 26 2018

Keywords

Planets
Satellites: detection
Stars: low-mass
Stars: pre-main sequence
Techniques: imaging spectroscopy

ASJC Scopus subject areas

General

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Asensio-Torres, R., Currie, T., Janson, M., Desidera, S., Kuzuhara, M., Hodapp, K., Brandt, T. D., Guyon, O., Lozi, J., Groff, T., Kasdin, J., Chilcote, J., Jovanovic, N., Martinache, F., Sitko, M., Serabyn, E., Wagner, K., Akiyama, E., Kwon, J., ... Tamura, M. (2018). Isochronal age-mass discrepancy of young stars: SCExAO/CHARIS integral field spectroscopy of the HIP 79124 triple system. Unknown Journal.

Isochronal age-mass discrepancy of young stars : SCExAO/CHARIS integral field spectroscopy of the HIP 79124 triple system. / Asensio-Torres, Ruben; Currie, Thayne; Janson, Markus; Desidera, Silvano; Kuzuhara, Masayuki; Hodapp, Klaus; Brandt, Timothy D.; Guyon, Olivier; Lozi, Julien; Groff, Tyler; Kasdin, Jeremy; Chilcote, Jeffrey; Jovanovic, Nemanja; Martinache, Frantz; Sitko, Michael; Serabyn, Eugene; Wagner, Kevin; Akiyama, Eiji; Kwon, Jungmi; Uyama, Taichi; Yang, Yi; Nakagawa, Takao; Hayashi, Masahiko; McElwain, Michael; Kudo, Tomoyuki; Henning, Thomas; Tamura, Motohide.

In: Unknown Journal, 26.11.2018.

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

Asensio-Torres, R, Currie, T, Janson, M, Desidera, S, Kuzuhara, M, Hodapp, K, Brandt, TD, Guyon, O, Lozi, J, Groff, T, Kasdin, J, Chilcote, J, Jovanovic, N, Martinache, F, Sitko, M, Serabyn, E, Wagner, K, Akiyama, E, Kwon, J, Uyama, T, Yang, Y, Nakagawa, T, Hayashi, M, McElwain, M, Kudo, T, Henning, T & Tamura, M 2018, 'Isochronal age-mass discrepancy of young stars: SCExAO/CHARIS integral field spectroscopy of the HIP 79124 triple system', Unknown Journal.

Asensio-Torres, Ruben ; Currie, Thayne ; Janson, Markus ; Desidera, Silvano ; Kuzuhara, Masayuki ; Hodapp, Klaus ; Brandt, Timothy D. ; Guyon, Olivier ; Lozi, Julien ; Groff, Tyler ; Kasdin, Jeremy ; Chilcote, Jeffrey ; Jovanovic, Nemanja ; Martinache, Frantz ; Sitko, Michael ; Serabyn, Eugene ; Wagner, Kevin ; Akiyama, Eiji ; Kwon, Jungmi ; Uyama, Taichi ; Yang, Yi ; Nakagawa, Takao ; Hayashi, Masahiko ; McElwain, Michael ; Kudo, Tomoyuki ; Henning, Thomas ; Tamura, Motohide. / Isochronal age-mass discrepancy of young stars : SCExAO/CHARIS integral field spectroscopy of the HIP 79124 triple system. In: Unknown Journal. 2018.

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title = "Isochronal age-mass discrepancy of young stars: SCExAO/CHARIS integral field spectroscopy of the HIP 79124 triple system",

abstract = "We present SCExAO/CHARIS 1.1–2.4 µm integral field direct spectroscopy of the young HIP 79124 triple system. HIP 79124 is a member of the Scorpius-Centaurus association, consisting of an A0V primary with two low-mass companions at a projected separation of <1 00. Thanks to the high quality wavefront corrections provided by SCExAO, both companions are decisively detected without the employment of any PSF-subtraction algorithm to eliminate quasi-static noise. The spectrum of the outer C object is very well matched by Upper Scorpius M4 ± 0.5 standard spectra, with a Teff = 2945 ± 100 K and a mass of ∼ 350 MJup. HIP 79124 B is detected at a separation of only 180 mas in a highly-correlated noise regime, and it falls in the spectral range M6 ± 0.5 with Teff = 2840 ± 190 K and ∼ 100 MJup. Previous studies of stellar populations in Sco-Cen have highlighted a discrepancy in isochronal ages between the lower-mass and higher-mass populations. This could be explained either by an age spread in the region, or by conventional isochronal models failing to reproduce the evolution of low-mass stars. The HIP 79124 system should be coeval, and therefore it provides an ideal laboratory to test these scenarios. We place the three components in a color-magnitude diagram and find that the models predict a younger age for the two low-mass companions (∼ 3 Myr) than for the primary star (∼ 6 Myr). These results imply that the omission of magnetic effects in conventional isochronal models inhibit them from reproducing early low-mass stellar evolution, which is further supported by the fact that new models that include such effects provide more consistent ages in the HIP 79124 system.",

keywords = "Planets, Satellites: detection, Stars: low-mass, Stars: pre-main sequence, Techniques: imaging spectroscopy",

author = "Ruben Asensio-Torres and Thayne Currie and Markus Janson and Silvano Desidera and Masayuki Kuzuhara and Klaus Hodapp and Brandt, {Timothy D.} and Olivier Guyon and Julien Lozi and Tyler Groff and Jeremy Kasdin and Jeffrey Chilcote and Nemanja Jovanovic and Frantz Martinache and Michael Sitko and Eugene Serabyn and Kevin Wagner and Eiji Akiyama and Jungmi Kwon and Taichi Uyama and Yi Yang and Takao Nakagawa and Masahiko Hayashi and Michael McElwain and Tomoyuki Kudo and Thomas Henning and Motohide Tamura",

year = "2018",

month = nov,

day = "26",

language = "English (US)",

journal = "Nuclear Physics A",

issn = "0375-9474",

publisher = "Elsevier",

}

TY - JOUR

T1 - Isochronal age-mass discrepancy of young stars

T2 - SCExAO/CHARIS integral field spectroscopy of the HIP 79124 triple system

AU - Asensio-Torres, Ruben

AU - Currie, Thayne

AU - Janson, Markus

AU - Desidera, Silvano

AU - Kuzuhara, Masayuki

AU - Hodapp, Klaus

AU - Brandt, Timothy D.

AU - Guyon, Olivier

AU - Lozi, Julien

AU - Groff, Tyler

AU - Kasdin, Jeremy

AU - Chilcote, Jeffrey

AU - Jovanovic, Nemanja

AU - Martinache, Frantz

AU - Sitko, Michael

AU - Serabyn, Eugene

AU - Wagner, Kevin

AU - Akiyama, Eiji

AU - Kwon, Jungmi

AU - Uyama, Taichi

AU - Yang, Yi

AU - Nakagawa, Takao

AU - Hayashi, Masahiko

AU - McElwain, Michael

AU - Kudo, Tomoyuki

AU - Henning, Thomas

AU - Tamura, Motohide

PY - 2018/11/26

Y1 - 2018/11/26

N2 - We present SCExAO/CHARIS 1.1–2.4 µm integral field direct spectroscopy of the young HIP 79124 triple system. HIP 79124 is a member of the Scorpius-Centaurus association, consisting of an A0V primary with two low-mass companions at a projected separation of <1 00. Thanks to the high quality wavefront corrections provided by SCExAO, both companions are decisively detected without the employment of any PSF-subtraction algorithm to eliminate quasi-static noise. The spectrum of the outer C object is very well matched by Upper Scorpius M4 ± 0.5 standard spectra, with a Teff = 2945 ± 100 K and a mass of ∼ 350 MJup. HIP 79124 B is detected at a separation of only 180 mas in a highly-correlated noise regime, and it falls in the spectral range M6 ± 0.5 with Teff = 2840 ± 190 K and ∼ 100 MJup. Previous studies of stellar populations in Sco-Cen have highlighted a discrepancy in isochronal ages between the lower-mass and higher-mass populations. This could be explained either by an age spread in the region, or by conventional isochronal models failing to reproduce the evolution of low-mass stars. The HIP 79124 system should be coeval, and therefore it provides an ideal laboratory to test these scenarios. We place the three components in a color-magnitude diagram and find that the models predict a younger age for the two low-mass companions (∼ 3 Myr) than for the primary star (∼ 6 Myr). These results imply that the omission of magnetic effects in conventional isochronal models inhibit them from reproducing early low-mass stellar evolution, which is further supported by the fact that new models that include such effects provide more consistent ages in the HIP 79124 system.

AB - We present SCExAO/CHARIS 1.1–2.4 µm integral field direct spectroscopy of the young HIP 79124 triple system. HIP 79124 is a member of the Scorpius-Centaurus association, consisting of an A0V primary with two low-mass companions at a projected separation of <1 00. Thanks to the high quality wavefront corrections provided by SCExAO, both companions are decisively detected without the employment of any PSF-subtraction algorithm to eliminate quasi-static noise. The spectrum of the outer C object is very well matched by Upper Scorpius M4 ± 0.5 standard spectra, with a Teff = 2945 ± 100 K and a mass of ∼ 350 MJup. HIP 79124 B is detected at a separation of only 180 mas in a highly-correlated noise regime, and it falls in the spectral range M6 ± 0.5 with Teff = 2840 ± 190 K and ∼ 100 MJup. Previous studies of stellar populations in Sco-Cen have highlighted a discrepancy in isochronal ages between the lower-mass and higher-mass populations. This could be explained either by an age spread in the region, or by conventional isochronal models failing to reproduce the evolution of low-mass stars. The HIP 79124 system should be coeval, and therefore it provides an ideal laboratory to test these scenarios. We place the three components in a color-magnitude diagram and find that the models predict a younger age for the two low-mass companions (∼ 3 Myr) than for the primary star (∼ 6 Myr). These results imply that the omission of magnetic effects in conventional isochronal models inhibit them from reproducing early low-mass stellar evolution, which is further supported by the fact that new models that include such effects provide more consistent ages in the HIP 79124 system.

KW - Planets

KW - Satellites: detection

KW - Stars: low-mass

KW - Stars: pre-main sequence

KW - Techniques: imaging spectroscopy

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AN - SCOPUS:85095138092

JO - Nuclear Physics A

JF - Nuclear Physics A

SN - 0375-9474

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