The HOSTS Survey for Exozodiacal Dust: Observational Results from the Complete Survey

M. Stone J. M. Stone; S. Ertel; D. Defrere; P. Hinz; B. Mennesson; G. M. Kennedy; W. C. Danchi; C. Gelino; J. M. Hill; W. F. Hoffmann; J. Mazoyer; G. Rieke; A. Shannon; K. Stapelfeldt; E. Spalding; J. M. Stone; A. Vaz; A. J. Weinberger; P. Willems; O. Absil; P. Arbo; V. P. Bailey; C. Beichman; G. Bryden; E. C. Downey; O. Durney; S. Esposito; A. Gaspar; P. Grenz; C. A. Haniff; J. M. Leisenring; L. Marion; T. J. McMahon; R. Millan-Gabet; M. Montoya; K. M. Morzinski; S. Perera; E. Pinna; J. U. Pott; J. Power; A. Puglisi; A. Roberge; E. Serabyn; A. J. Skemer; K. Y.L. Su; V. Vaitheeswaran; M. C. Wyatt

doi:10.3847/1538-3881/ab7817

The HOSTS Survey for Exozodiacal Dust: Observational Results from the Complete Survey

M. Stone J. M. Stone
, S. Ertel
, D. Defrere
, P. Hinz
, B. Mennesson
, G. M. Kennedy
, W. C. Danchi
, C. Gelino
, J. M. Hill
, W. F. Hoffmann
, J. Mazoyer
, G. Rieke
, A. Shannon
, K. Stapelfeldt
, E. Spalding
, J. M. Stone
, A. Vaz
, A. J. Weinberger
, P. Willems
, O. Absil

P. Arbo, V. P. Bailey, C. Beichman, G. Bryden, E. C. Downey, O. Durney, S. Esposito, A. Gaspar, P. Grenz, C. A. Haniff, J. M. Leisenring, L. Marion, T. J. McMahon, R. Millan-Gabet, M. Montoya, K. M. Morzinski, S. Perera, E. Pinna, J. U. Pott, J. Power, A. Puglisi, A. Roberge, E. Serabyn, A. J. Skemer, K. Y.L. Su, V. Vaitheeswaran, M. C. Wyatt

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

59 Scopus citations

Abstract

The Large Binocular Telescope Interferometer (LBTI) enables nulling interferometric observations across the N band (8 to 13 μm) to suppress a star's bright light and probe for faint circumstellar emission. We present and statistically analyze the results from the LBTI/Hunt for Observable Signatures of Terrestrial Systems survey for exozodiacal dust. By comparing our measurements to model predictions based on the solar zodiacal dust in the N band, we estimate a 1σ median sensitivity of 23 zodis times the solar system dust surface density in its habitable zone (HZ; 23 zodis) for early-type stars and 48 zodis for Sun-like stars, where 1 zodi is the surface density of HZ dust in the solar system. Of the 38 stars observed, 10 show significant excess. A clear correlation of our detections with the presence of cold dust in the systems was found, but none with the stellar spectral type or age. The majority of Sun-like stars have relatively low HZ dust levels (best-fit median: 3 zodis, 1σ upper limit: 9 zodis, 95% confidence: 27 zodis based on our N band measurements), while ∼20% are significantly more dusty. The solar system's HZ dust content is consistent with being typical. Our median HZ dust level would not be a major limitation to the direct imaging search for Earth-like exoplanets, but more precise constraints are still required, in particular to evaluate the impact of exozodiacal dust for the spectroscopic characterization of imaged exo-Earth candidates.

Original language	English (US)
Article number	ab7817
Journal	Astronomical Journal
Volume	159
Issue number	4
DOIs	https://doi.org/10.3847/1538-3881/ab7817
State	Published - Apr 2020

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/1538-3881/ab7817

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J. M. Stone, M. S., Ertel, S., Defrere, D., Hinz, P., Mennesson, B., Kennedy, G. M., Danchi, W. C., Gelino, C., Hill, J. M., Hoffmann, W. F., Mazoyer, J., Rieke, G., Shannon, A., Stapelfeldt, K., Spalding, E., Stone, J. M., Vaz, A., Weinberger, A. J., Willems, P., ... Wyatt, M. C. (2020). The HOSTS Survey for Exozodiacal Dust: Observational Results from the Complete Survey. Astronomical Journal, 159(4), Article ab7817. https://doi.org/10.3847/1538-3881/ab7817

J. M. Stone, MS, Ertel, S, Defrere, D, Hinz, P, Mennesson, B, Kennedy, GM, Danchi, WC, Gelino, C, Hill, JM, Hoffmann, WF, Mazoyer, J, Rieke, G, Shannon, A, Stapelfeldt, K, Spalding, E, Stone, JM, Vaz, A, Weinberger, AJ, Willems, P, Absil, O, Arbo, P, Bailey, VP, Beichman, C, Bryden, G, Downey, EC, Durney, O, Esposito, S, Gaspar, A, Grenz, P, Haniff, CA, Leisenring, JM, Marion, L, McMahon, TJ, Millan-Gabet, R, Montoya, M, Morzinski, KM, Perera, S, Pinna, E, Pott, JU, Power, J, Puglisi, A, Roberge, A, Serabyn, E, Skemer, AJ, Su, KYL, Vaitheeswaran, V & Wyatt, MC 2020, 'The HOSTS Survey for Exozodiacal Dust: Observational Results from the Complete Survey', Astronomical Journal, vol. 159, no. 4, ab7817. https://doi.org/10.3847/1538-3881/ab7817

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title = "The HOSTS Survey for Exozodiacal Dust: Observational Results from the Complete Survey",

abstract = "The Large Binocular Telescope Interferometer (LBTI) enables nulling interferometric observations across the N band (8 to 13 μm) to suppress a star's bright light and probe for faint circumstellar emission. We present and statistically analyze the results from the LBTI/Hunt for Observable Signatures of Terrestrial Systems survey for exozodiacal dust. By comparing our measurements to model predictions based on the solar zodiacal dust in the N band, we estimate a 1σ median sensitivity of 23 zodis times the solar system dust surface density in its habitable zone (HZ; 23 zodis) for early-type stars and 48 zodis for Sun-like stars, where 1 zodi is the surface density of HZ dust in the solar system. Of the 38 stars observed, 10 show significant excess. A clear correlation of our detections with the presence of cold dust in the systems was found, but none with the stellar spectral type or age. The majority of Sun-like stars have relatively low HZ dust levels (best-fit median: 3 zodis, 1σ upper limit: 9 zodis, 95\% confidence: 27 zodis based on our N band measurements), while ∼20\% are significantly more dusty. The solar system's HZ dust content is consistent with being typical. Our median HZ dust level would not be a major limitation to the direct imaging search for Earth-like exoplanets, but more precise constraints are still required, in particular to evaluate the impact of exozodiacal dust for the spectroscopic characterization of imaged exo-Earth candidates.",

author = "\{J. M. Stone\}, \{M. Stone\} and S. Ertel and D. Defrere and P. Hinz and B. Mennesson and Kennedy, \{G. M.\} and Danchi, \{W. C.\} and C. Gelino and Hill, \{J. M.\} and Hoffmann, \{W. F.\} and J. Mazoyer and G. Rieke and A. Shannon and K. Stapelfeldt and E. Spalding and Stone, \{J. M.\} and A. Vaz and Weinberger, \{A. J.\} and P. Willems and O. Absil and P. Arbo and Bailey, \{V. P.\} and C. Beichman and G. Bryden and Downey, \{E. C.\} and O. Durney and S. Esposito and A. Gaspar and P. Grenz and Haniff, \{C. A.\} and Leisenring, \{J. M.\} and L. Marion and McMahon, \{T. J.\} and R. Millan-Gabet and M. Montoya and Morzinski, \{K. M.\} and S. Perera and E. Pinna and Pott, \{J. U.\} and J. Power and A. Puglisi and A. Roberge and E. Serabyn and Skemer, \{A. J.\} and Su, \{K. Y.L.\} and V. Vaitheeswaran and Wyatt, \{M. C.\}",

year = "2020",

month = apr,

doi = "10.3847/1538-3881/ab7817",

language = "English (US)",

volume = "159",

journal = "Astronomical Journal",

issn = "0004-6256",

publisher = "American Astronomical Society",

number = "4",

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TY - JOUR

T1 - The HOSTS Survey for Exozodiacal Dust

T2 - Observational Results from the Complete Survey

AU - J. M. Stone, M. Stone

AU - Ertel, S.

AU - Defrere, D.

AU - Hinz, P.

AU - Mennesson, B.

AU - Kennedy, G. M.

AU - Danchi, W. C.

AU - Gelino, C.

AU - Hill, J. M.

AU - Hoffmann, W. F.

AU - Mazoyer, J.

AU - Rieke, G.

AU - Shannon, A.

AU - Stapelfeldt, K.

AU - Spalding, E.

AU - Stone, J. M.

AU - Vaz, A.

AU - Weinberger, A. J.

AU - Willems, P.

AU - Absil, O.

AU - Arbo, P.

AU - Bailey, V. P.

AU - Beichman, C.

AU - Bryden, G.

AU - Downey, E. C.

AU - Durney, O.

AU - Esposito, S.

AU - Gaspar, A.

AU - Grenz, P.

AU - Haniff, C. A.

AU - Leisenring, J. M.

AU - Marion, L.

AU - McMahon, T. J.

AU - Millan-Gabet, R.

AU - Montoya, M.

AU - Morzinski, K. M.

AU - Perera, S.

AU - Pinna, E.

AU - Pott, J. U.

AU - Power, J.

AU - Puglisi, A.

AU - Roberge, A.

AU - Serabyn, E.

AU - Skemer, A. J.

AU - Su, K. Y.L.

AU - Vaitheeswaran, V.

AU - Wyatt, M. C.

PY - 2020/4

Y1 - 2020/4

N2 - The Large Binocular Telescope Interferometer (LBTI) enables nulling interferometric observations across the N band (8 to 13 μm) to suppress a star's bright light and probe for faint circumstellar emission. We present and statistically analyze the results from the LBTI/Hunt for Observable Signatures of Terrestrial Systems survey for exozodiacal dust. By comparing our measurements to model predictions based on the solar zodiacal dust in the N band, we estimate a 1σ median sensitivity of 23 zodis times the solar system dust surface density in its habitable zone (HZ; 23 zodis) for early-type stars and 48 zodis for Sun-like stars, where 1 zodi is the surface density of HZ dust in the solar system. Of the 38 stars observed, 10 show significant excess. A clear correlation of our detections with the presence of cold dust in the systems was found, but none with the stellar spectral type or age. The majority of Sun-like stars have relatively low HZ dust levels (best-fit median: 3 zodis, 1σ upper limit: 9 zodis, 95% confidence: 27 zodis based on our N band measurements), while ∼20% are significantly more dusty. The solar system's HZ dust content is consistent with being typical. Our median HZ dust level would not be a major limitation to the direct imaging search for Earth-like exoplanets, but more precise constraints are still required, in particular to evaluate the impact of exozodiacal dust for the spectroscopic characterization of imaged exo-Earth candidates.

AB - The Large Binocular Telescope Interferometer (LBTI) enables nulling interferometric observations across the N band (8 to 13 μm) to suppress a star's bright light and probe for faint circumstellar emission. We present and statistically analyze the results from the LBTI/Hunt for Observable Signatures of Terrestrial Systems survey for exozodiacal dust. By comparing our measurements to model predictions based on the solar zodiacal dust in the N band, we estimate a 1σ median sensitivity of 23 zodis times the solar system dust surface density in its habitable zone (HZ; 23 zodis) for early-type stars and 48 zodis for Sun-like stars, where 1 zodi is the surface density of HZ dust in the solar system. Of the 38 stars observed, 10 show significant excess. A clear correlation of our detections with the presence of cold dust in the systems was found, but none with the stellar spectral type or age. The majority of Sun-like stars have relatively low HZ dust levels (best-fit median: 3 zodis, 1σ upper limit: 9 zodis, 95% confidence: 27 zodis based on our N band measurements), while ∼20% are significantly more dusty. The solar system's HZ dust content is consistent with being typical. Our median HZ dust level would not be a major limitation to the direct imaging search for Earth-like exoplanets, but more precise constraints are still required, in particular to evaluate the impact of exozodiacal dust for the spectroscopic characterization of imaged exo-Earth candidates.

UR - https://www.scopus.com/pages/publications/85086447669

UR - https://www.scopus.com/pages/publications/85086447669#tab=citedBy

U2 - 10.3847/1538-3881/ab7817

DO - 10.3847/1538-3881/ab7817

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AN - SCOPUS:85086447669

SN - 0004-6256

VL - 159

JO - Astronomical Journal

JF - Astronomical Journal

IS - 4

M1 - ab7817

ER -

The HOSTS Survey for Exozodiacal Dust: Observational Results from the Complete Survey

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