Mysterious Dust-emitting Object Orbiting TIC 400799224

Brian P. Powell; Veselin B. Kostov; Saul A. Rappaport; Andrei Tokovinin; Avi Shporer; Karen A. Collins; Hank Corbett; Tamás Borkovits; Bruce L. Gary; Eugene Chiang; Joseph E. Rodriguez; Nicholas M. Law; Thomas Barclay; Robert Gagliano; Andrew Vanderburg; Greg Olmschenk; Ethan Kruse; Joshua E. Schlieder; Alan Vasquez Soto; Erin Goeke; Thomas L. Jacobs; Martti H. Kristiansen; Daryll M. LaCourse; Mark Omohundro; Hans M. Schwengeler; Ivan A. Terentev; Allan R. Schmitt

doi:10.3847/1538-3881/ac2c81

Mysterious Dust-emitting Object Orbiting TIC 400799224

Brian P. Powell^*
, Veselin B. Kostov
, Saul A. Rappaport
, Andrei Tokovinin
, Avi Shporer
, Karen A. Collins
, Hank Corbett
, Tamás Borkovits
, Bruce L. Gary
, Eugene Chiang
, Joseph E. Rodriguez
, Nicholas M. Law
, Thomas Barclay
, Robert Gagliano
, Andrew Vanderburg
, Greg Olmschenk
, Ethan Kruse
, Joshua E. Schlieder
, Alan Vasquez Soto
, Erin Goeke

Thomas L. Jacobs, Martti H. Kristiansen, Daryll M. LaCourse, Mark Omohundro, Hans M. Schwengeler, Ivan A. Terentev, Allan R. Schmitt

^*Corresponding author for this work

NASA Goddard Space Flight Center
Massachusetts Institute of Technology
NSF’s National Optical-Infrared Astronomy Research Laboratory
Harvard-Smithsonian Center for Astrophysics
University of North Carolina at Chapel Hill
Konkoly Observatory
Hereford Arizona Observatory
University of California at Berkeley
Michigan State University
University of Wisconsin-Madison

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

We report the discovery of a unique object of uncertain nature—but quite possibly a disintegrating asteroid or minor planet—orbiting one star of the widely separated binary TIC 400799224. We initially identified the system in data from TESS Sector 10 via an abnormally shaped fading event in the light curve (hereafter “dips”). Follow-up speckle imaging determined that TIC 400799224 is actually two stars of similar brightness at 0.″62 separation, forming a likely bound binary with projected separation of ∼300 au. We cannot yet determine which star in the binary is host to the dips in flux. ASAS-SN and Evryscope archival data show that there is a strong periodicity of the dips at ∼19.77 days, leading us to believe that an occulting object is orbiting the host star, though the duration, depth, and shape of the dips vary substantially. Statistical analysis of the ASAS-SN data shows that the dips only occur sporadically at a detectable threshold in approximately one out of every three to five transits, lending credence to the possibility that the occulter is a sporadically emitted dust cloud. The cloud is also fairly optically thick, blocking up to 37% or 75% of the light from the host star, depending on the true host. Further observations may allow for greater detail to be gleaned as to the origin and composition of the occulter, as well as to a determination of which of the two stars comprising TIC 400799224 is the true host star of the dips.

Original language	English
Article number	299
Journal	Astronomical Journal
Volume	162
Issue number	6
Number of pages	19
ISSN	0004-6256
DOIs	https://doi.org/10.3847/1538-3881/ac2c81
Publication status	Published - 2021

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Powell, B. P., Kostov, V. B., Rappaport, S. A., Tokovinin, A., Shporer, A., Collins, K. A., Corbett, H., Borkovits, T., Gary, B. L., Chiang, E., Rodriguez, J. E., Law, N. M., Barclay, T., Gagliano, R., Vanderburg, A., Olmschenk, G., Kruse, E., Schlieder, J. E., Soto, A. V., ... Schmitt, A. R. (2021). Mysterious Dust-emitting Object Orbiting TIC 400799224. Astronomical Journal, 162(6), Article 299. https://doi.org/10.3847/1538-3881/ac2c81

@article{4d1741b33b714180a298ab54a1878d90,

title = "Mysterious Dust-emitting Object Orbiting TIC 400799224",

abstract = "We report the discovery of a unique object of uncertain nature—but quite possibly a disintegrating asteroid or minor planet—orbiting one star of the widely separated binary TIC 400799224. We initially identified the system in data from TESS Sector 10 via an abnormally shaped fading event in the light curve (hereafter “dips”). Follow-up speckle imaging determined that TIC 400799224 is actually two stars of similar brightness at 0.″62 separation, forming a likely bound binary with projected separation of ∼300 au. We cannot yet determine which star in the binary is host to the dips in flux. ASAS-SN and Evryscope archival data show that there is a strong periodicity of the dips at ∼19.77 days, leading us to believe that an occulting object is orbiting the host star, though the duration, depth, and shape of the dips vary substantially. Statistical analysis of the ASAS-SN data shows that the dips only occur sporadically at a detectable threshold in approximately one out of every three to five transits, lending credence to the possibility that the occulter is a sporadically emitted dust cloud. The cloud is also fairly optically thick, blocking up to 37\% or 75\% of the light from the host star, depending on the true host. Further observations may allow for greater detail to be gleaned as to the origin and composition of the occulter, as well as to a determination of which of the two stars comprising TIC 400799224 is the true host star of the dips.",

author = "Powell, \{Brian P.\} and Kostov, \{Veselin B.\} and Rappaport, \{Saul A.\} and Andrei Tokovinin and Avi Shporer and Collins, \{Karen A.\} and Hank Corbett and Tam{\'a}s Borkovits and Gary, \{Bruce L.\} and Eugene Chiang and Rodriguez, \{Joseph E.\} and Law, \{Nicholas M.\} and Thomas Barclay and Robert Gagliano and Andrew Vanderburg and Greg Olmschenk and Ethan Kruse and Schlieder, \{Joshua E.\} and Soto, \{Alan Vasquez\} and Erin Goeke and Jacobs, \{Thomas L.\} and Kristiansen, \{Martti H.\} and LaCourse, \{Daryll M.\} and Mark Omohundro and Schwengeler, \{Hans M.\} and Terentev, \{Ivan A.\} and Schmitt, \{Allan R.\}",

year = "2021",

doi = "10.3847/1538-3881/ac2c81",

language = "English",

volume = "162",

journal = "Astronomical Journal",

issn = "0004-6256",

publisher = "American Astronomical Society",

number = "6",

}

Powell, BP, Kostov, VB, Rappaport, SA, Tokovinin, A, Shporer, A, Collins, KA, Corbett, H, Borkovits, T, Gary, BL, Chiang, E, Rodriguez, JE, Law, NM, Barclay, T, Gagliano, R, Vanderburg, A, Olmschenk, G, Kruse, E, Schlieder, JE, Soto, AV, Goeke, E, Jacobs, TL, Kristiansen, MH, LaCourse, DM, Omohundro, M, Schwengeler, HM, Terentev, IA & Schmitt, AR 2021, 'Mysterious Dust-emitting Object Orbiting TIC 400799224', Astronomical Journal, vol. 162, no. 6, 299. https://doi.org/10.3847/1538-3881/ac2c81

TY - JOUR

T1 - Mysterious Dust-emitting Object Orbiting TIC 400799224

AU - Powell, Brian P.

AU - Kostov, Veselin B.

AU - Rappaport, Saul A.

AU - Tokovinin, Andrei

AU - Shporer, Avi

AU - Collins, Karen A.

AU - Corbett, Hank

AU - Borkovits, Tamás

AU - Gary, Bruce L.

AU - Chiang, Eugene

AU - Rodriguez, Joseph E.

AU - Law, Nicholas M.

AU - Barclay, Thomas

AU - Gagliano, Robert

AU - Vanderburg, Andrew

AU - Olmschenk, Greg

AU - Kruse, Ethan

AU - Schlieder, Joshua E.

AU - Soto, Alan Vasquez

AU - Goeke, Erin

AU - Jacobs, Thomas L.

AU - Kristiansen, Martti H.

AU - LaCourse, Daryll M.

AU - Omohundro, Mark

AU - Schwengeler, Hans M.

AU - Terentev, Ivan A.

AU - Schmitt, Allan R.

PY - 2021

Y1 - 2021

N2 - We report the discovery of a unique object of uncertain nature—but quite possibly a disintegrating asteroid or minor planet—orbiting one star of the widely separated binary TIC 400799224. We initially identified the system in data from TESS Sector 10 via an abnormally shaped fading event in the light curve (hereafter “dips”). Follow-up speckle imaging determined that TIC 400799224 is actually two stars of similar brightness at 0.″62 separation, forming a likely bound binary with projected separation of ∼300 au. We cannot yet determine which star in the binary is host to the dips in flux. ASAS-SN and Evryscope archival data show that there is a strong periodicity of the dips at ∼19.77 days, leading us to believe that an occulting object is orbiting the host star, though the duration, depth, and shape of the dips vary substantially. Statistical analysis of the ASAS-SN data shows that the dips only occur sporadically at a detectable threshold in approximately one out of every three to five transits, lending credence to the possibility that the occulter is a sporadically emitted dust cloud. The cloud is also fairly optically thick, blocking up to 37% or 75% of the light from the host star, depending on the true host. Further observations may allow for greater detail to be gleaned as to the origin and composition of the occulter, as well as to a determination of which of the two stars comprising TIC 400799224 is the true host star of the dips.

AB - We report the discovery of a unique object of uncertain nature—but quite possibly a disintegrating asteroid or minor planet—orbiting one star of the widely separated binary TIC 400799224. We initially identified the system in data from TESS Sector 10 via an abnormally shaped fading event in the light curve (hereafter “dips”). Follow-up speckle imaging determined that TIC 400799224 is actually two stars of similar brightness at 0.″62 separation, forming a likely bound binary with projected separation of ∼300 au. We cannot yet determine which star in the binary is host to the dips in flux. ASAS-SN and Evryscope archival data show that there is a strong periodicity of the dips at ∼19.77 days, leading us to believe that an occulting object is orbiting the host star, though the duration, depth, and shape of the dips vary substantially. Statistical analysis of the ASAS-SN data shows that the dips only occur sporadically at a detectable threshold in approximately one out of every three to five transits, lending credence to the possibility that the occulter is a sporadically emitted dust cloud. The cloud is also fairly optically thick, blocking up to 37% or 75% of the light from the host star, depending on the true host. Further observations may allow for greater detail to be gleaned as to the origin and composition of the occulter, as well as to a determination of which of the two stars comprising TIC 400799224 is the true host star of the dips.

U2 - 10.3847/1538-3881/ac2c81

DO - 10.3847/1538-3881/ac2c81

M3 - Journal article

SN - 0004-6256

VL - 162

JO - Astronomical Journal

JF - Astronomical Journal

IS - 6

M1 - 299

ER -

Mysterious Dust-emitting Object Orbiting TIC 400799224

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