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Main Authors: Garreau, G., Defrère, D., Ertel, S., Faramaz-Gorka, V., Bryden, G., Sommer, M., Mesa, D., Wagner, K., De Prins, T., Laugier, R., Weinberger, A., Farinato, J., Haniff, C., Hinz, P. M., Isbell, J. W., Kennedy, G. M., Lorenzetto, A., Maier, E. R., Marafatto, L., Marino, S., Martinod, M. A., Mennesson, B., Rousseau, H., Spalding, E., Vassallo, D., Wyatt, M. C.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.07585
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author Garreau, G.
Defrère, D.
Ertel, S.
Faramaz-Gorka, V.
Bryden, G.
Sommer, M.
Mesa, D.
Wagner, K.
De Prins, T.
Laugier, R.
Weinberger, A.
Farinato, J.
Haniff, C.
Hinz, P. M.
Isbell, J. W.
Kennedy, G. M.
Lorenzetto, A.
Maier, E. R.
Marafatto, L.
Marino, S.
Martinod, M. A.
Mennesson, B.
Rousseau, H.
Spalding, E.
Vassallo, D.
Wyatt, M. C.
author_facet Garreau, G.
Defrère, D.
Ertel, S.
Faramaz-Gorka, V.
Bryden, G.
Sommer, M.
Mesa, D.
Wagner, K.
De Prins, T.
Laugier, R.
Weinberger, A.
Farinato, J.
Haniff, C.
Hinz, P. M.
Isbell, J. W.
Kennedy, G. M.
Lorenzetto, A.
Maier, E. R.
Marafatto, L.
Marino, S.
Martinod, M. A.
Mennesson, B.
Rousseau, H.
Spalding, E.
Vassallo, D.
Wyatt, M. C.
contents During the HOSTS survey by the LBTI, an excess emission from the main sequence star θ Boo (F7V spectral type, 14.5pc distance) was observed. This excess indicates the presence of exozodiacal dust near the habitable zone (HZ) of the star. Previous observations from Spitzer and Herschel showed no sign of outer cold dust within their respective detection limits. Additional nulling and high-contrast AO observations were taken to spatially constrain the dust distribution, search for variability, and directly image potential companions in the system. This study presents the results of these observations and provides an interpretation of the inner system's architecture. The star was observed using the LBTI's N'-band nulling mode during three epochs in 2017, 2018, and 2023. The dust distribution is modeled and constrained for each epoch using the standard LBTI nulling pipeline, assuming a vertically thin disk with a face-on inclination. In addition, high-contrast AO observations are performed in the L'-band and H-band to constrain the presence of substellar companions around the star. Several solutions are found for the dust distribution, and for each epoch. However, the LBTI nulling observations are not able to discriminate between them. Using the upper limits from previous observations, we constrain the representative size of the dust grains around 3-5$μ$m. A tentative increase in dust brightness is also measured at the Earth-equivalent insolation distance between 2017 and 2023. Several options are considered to explain the origin of the observed dust and its variability, but no clear sources could be identified from the current observations. Partly because our high-contrast AO observations could only constrain the presence of companions down to $11M_\text{Jup}$ at 1.3" separation.
format Preprint
id arxiv_https___arxiv_org_abs_2505_07585
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The HOSTS Survey: Suspected variable dust emission and constraints on companions around θ Boo
Garreau, G.
Defrère, D.
Ertel, S.
Faramaz-Gorka, V.
Bryden, G.
Sommer, M.
Mesa, D.
Wagner, K.
De Prins, T.
Laugier, R.
Weinberger, A.
Farinato, J.
Haniff, C.
Hinz, P. M.
Isbell, J. W.
Kennedy, G. M.
Lorenzetto, A.
Maier, E. R.
Marafatto, L.
Marino, S.
Martinod, M. A.
Mennesson, B.
Rousseau, H.
Spalding, E.
Vassallo, D.
Wyatt, M. C.
Earth and Planetary Astrophysics
Solar and Stellar Astrophysics
During the HOSTS survey by the LBTI, an excess emission from the main sequence star θ Boo (F7V spectral type, 14.5pc distance) was observed. This excess indicates the presence of exozodiacal dust near the habitable zone (HZ) of the star. Previous observations from Spitzer and Herschel showed no sign of outer cold dust within their respective detection limits. Additional nulling and high-contrast AO observations were taken to spatially constrain the dust distribution, search for variability, and directly image potential companions in the system. This study presents the results of these observations and provides an interpretation of the inner system's architecture. The star was observed using the LBTI's N'-band nulling mode during three epochs in 2017, 2018, and 2023. The dust distribution is modeled and constrained for each epoch using the standard LBTI nulling pipeline, assuming a vertically thin disk with a face-on inclination. In addition, high-contrast AO observations are performed in the L'-band and H-band to constrain the presence of substellar companions around the star. Several solutions are found for the dust distribution, and for each epoch. However, the LBTI nulling observations are not able to discriminate between them. Using the upper limits from previous observations, we constrain the representative size of the dust grains around 3-5$μ$m. A tentative increase in dust brightness is also measured at the Earth-equivalent insolation distance between 2017 and 2023. Several options are considered to explain the origin of the observed dust and its variability, but no clear sources could be identified from the current observations. Partly because our high-contrast AO observations could only constrain the presence of companions down to $11M_\text{Jup}$ at 1.3" separation.
title The HOSTS Survey: Suspected variable dust emission and constraints on companions around θ Boo
topic Earth and Planetary Astrophysics
Solar and Stellar Astrophysics
url https://arxiv.org/abs/2505.07585