Deep long asymmetric occultation in EPIC 204376071

S. Rappaport; G. Zhou; A. Vanderburg; A. Mann; M. H. Kristiansen; K. Oláh; T. L. Jacobs; E. Newton; M. R. Omohundro; D. LaCourse; H. M. Schwengeler; I. A. Terentev; D. W. Latham; A. Bieryla; M. Soares-Furtado; L. G. Bouma; M. J. Ireland; J. Irwin

doi:10.1093/mnras/stz537

Deep long asymmetric occultation in EPIC 204376071

S. Rappaport, G. Zhou, A. Vanderburg, A. Mann, M. H. Kristiansen, K. Oláh, T. L. Jacobs, E. Newton, M. R. Omohundro, D. LaCourse, H. M. Schwengeler, I. A. Terentev, D. W. Latham, A. Bieryla, M. Soares-Furtado, L. G. Bouma, M. J. Ireland, J. Irwin

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17 Citations (Scopus)

Abstract

We have discovered a young M star of mass 0.16 M and radius 0.63 R, likely in the Upper Sco Association, that exhibits only a single 80 per cent deep occultation of 1-d duration. The star has frequent flares and a low-amplitude rotational modulation, but is otherwise quiet over 160 d of cumulative observation during K2 campaigns C2 and C15. We discuss how such a deep eclipse is not possible by one star crossing another in any binary or higher order stellar system in which no mass transfer has occurred. The two possible explanations we are left with are (1) orbiting dust or small particles (e.g. a disc bound to a smaller orbiting body, or unbound dust that emanates from such a body); or (2) a transient accretion event of dusty material near the corotation radius of the star. In either case, the time between such occultation events must be longer than ∼80 d. We model a possible orbiting occulter both as a uniform elliptically shaped surface (e.g. an inclined circular disc) and as a 'dust sheet' with a gradient of optical depth behind its leading edge. The required masses in such dust features are then 3 × 10¹⁹ g and 10¹⁹ g, for the two cases, respectively.

Original language	English
Pages (from-to)	2681-2693
Number of pages	13
Journal	Monthly Notices of the Royal Astronomical Society
Volume	485
Issue number	2
DOIs	https://doi.org/10.1093/mnras/stz537
Publication status	Published - 15 Feb 2019

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Rappaport, S., Zhou, G., Vanderburg, A., Mann, A., Kristiansen, M. H., Oláh, K., Jacobs, T. L., Newton, E., Omohundro, M. R., LaCourse, D., Schwengeler, H. M., Terentev, I. A., Latham, D. W., Bieryla, A., Soares-Furtado, M., Bouma, L. G., Ireland, M. J., & Irwin, J. (2019). Deep long asymmetric occultation in EPIC 204376071. Monthly Notices of the Royal Astronomical Society, 485(2), 2681-2693. https://doi.org/10.1093/mnras/stz537

@article{8ae40cdfd2fa4cf68792baab152d215f,

title = "Deep long asymmetric occultation in EPIC 204376071",

abstract = "We have discovered a young M star of mass 0.16 M and radius 0.63 R, likely in the Upper Sco Association, that exhibits only a single 80 per cent deep occultation of 1-d duration. The star has frequent flares and a low-amplitude rotational modulation, but is otherwise quiet over 160 d of cumulative observation during K2 campaigns C2 and C15. We discuss how such a deep eclipse is not possible by one star crossing another in any binary or higher order stellar system in which no mass transfer has occurred. The two possible explanations we are left with are (1) orbiting dust or small particles (e.g. a disc bound to a smaller orbiting body, or unbound dust that emanates from such a body); or (2) a transient accretion event of dusty material near the corotation radius of the star. In either case, the time between such occultation events must be longer than ∼80 d. We model a possible orbiting occulter both as a uniform elliptically shaped surface (e.g. an inclined circular disc) and as a 'dust sheet' with a gradient of optical depth behind its leading edge. The required masses in such dust features are then 3 × 1019 g and 1019 g, for the two cases, respectively.",

keywords = "Stars: flare, Stars: late-type, Stars: low-mass, Stars: pre-main-sequence, Stars: starspots",

author = "S. Rappaport and G. Zhou and A. Vanderburg and A. Mann and Kristiansen, {M. H.} and K. Ol{\'a}h and Jacobs, {T. L.} and E. Newton and Omohundro, {M. R.} and D. LaCourse and Schwengeler, {H. M.} and Terentev, {I. A.} and Latham, {D. W.} and A. Bieryla and M. Soares-Furtado and Bouma, {L. G.} and Ireland, {M. J.} and J. Irwin",

note = "Publisher Copyright: {\textcopyright} 2019 The Author(s)",

year = "2019",

month = feb,

day = "15",

doi = "10.1093/mnras/stz537",

language = "English",

volume = "485",

pages = "2681--2693",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press ",

number = "2",

}

Rappaport, S, Zhou, G, Vanderburg, A, Mann, A, Kristiansen, MH, Oláh, K, Jacobs, TL, Newton, E, Omohundro, MR, LaCourse, D, Schwengeler, HM, Terentev, IA, Latham, DW, Bieryla, A, Soares-Furtado, M, Bouma, LG, Ireland, MJ & Irwin, J 2019, 'Deep long asymmetric occultation in EPIC 204376071', Monthly Notices of the Royal Astronomical Society, vol. 485, no. 2, pp. 2681-2693. https://doi.org/10.1093/mnras/stz537

TY - JOUR

T1 - Deep long asymmetric occultation in EPIC 204376071

AU - Rappaport, S.

AU - Zhou, G.

AU - Vanderburg, A.

AU - Mann, A.

AU - Kristiansen, M. H.

AU - Oláh, K.

AU - Jacobs, T. L.

AU - Newton, E.

AU - Omohundro, M. R.

AU - LaCourse, D.

AU - Schwengeler, H. M.

AU - Terentev, I. A.

AU - Latham, D. W.

AU - Bieryla, A.

AU - Soares-Furtado, M.

AU - Bouma, L. G.

AU - Ireland, M. J.

AU - Irwin, J.

PY - 2019/2/15

Y1 - 2019/2/15

N2 - We have discovered a young M star of mass 0.16 M and radius 0.63 R, likely in the Upper Sco Association, that exhibits only a single 80 per cent deep occultation of 1-d duration. The star has frequent flares and a low-amplitude rotational modulation, but is otherwise quiet over 160 d of cumulative observation during K2 campaigns C2 and C15. We discuss how such a deep eclipse is not possible by one star crossing another in any binary or higher order stellar system in which no mass transfer has occurred. The two possible explanations we are left with are (1) orbiting dust or small particles (e.g. a disc bound to a smaller orbiting body, or unbound dust that emanates from such a body); or (2) a transient accretion event of dusty material near the corotation radius of the star. In either case, the time between such occultation events must be longer than ∼80 d. We model a possible orbiting occulter both as a uniform elliptically shaped surface (e.g. an inclined circular disc) and as a 'dust sheet' with a gradient of optical depth behind its leading edge. The required masses in such dust features are then 3 × 1019 g and 1019 g, for the two cases, respectively.

AB - We have discovered a young M star of mass 0.16 M and radius 0.63 R, likely in the Upper Sco Association, that exhibits only a single 80 per cent deep occultation of 1-d duration. The star has frequent flares and a low-amplitude rotational modulation, but is otherwise quiet over 160 d of cumulative observation during K2 campaigns C2 and C15. We discuss how such a deep eclipse is not possible by one star crossing another in any binary or higher order stellar system in which no mass transfer has occurred. The two possible explanations we are left with are (1) orbiting dust or small particles (e.g. a disc bound to a smaller orbiting body, or unbound dust that emanates from such a body); or (2) a transient accretion event of dusty material near the corotation radius of the star. In either case, the time between such occultation events must be longer than ∼80 d. We model a possible orbiting occulter both as a uniform elliptically shaped surface (e.g. an inclined circular disc) and as a 'dust sheet' with a gradient of optical depth behind its leading edge. The required masses in such dust features are then 3 × 1019 g and 1019 g, for the two cases, respectively.

KW - Stars: flare

KW - Stars: late-type

KW - Stars: low-mass

KW - Stars: pre-main-sequence

KW - Stars: starspots

UR - http://www.scopus.com/inward/record.url?scp=85067049105&partnerID=8YFLogxK

U2 - 10.1093/mnras/stz537

DO - 10.1093/mnras/stz537

M3 - Article

SN - 0035-8711

VL - 485

SP - 2681

EP - 2693

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -

Deep long asymmetric occultation in EPIC 204376071

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