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Unraveling the Mystery of Exozodiacal Dust

Ertel, Steve
Augereau, Jean-Charles
Thébault, Philippe
Absil, Olivier
Bonsor, A.
Defrère, Denis
Kral, Quentin
Le Bouquin, Jean-Baptiste
Lebreton, J.
Coudé Du Foresto, Vincent

Publication date

June 2013

DOI

10.1017/S1743921313008843

Publisher

Cambridge University Press (CUP)

Abstract

International audienceExozodiacal dust clouds are thought to be the extrasolar analogs of the Solar System's zodiacal dust. Studying these systems provides insights in the architecture of the innermost regions of planetary systems, including the Habitable Zone. Furthermore, the mere presence of the dust may result in major obstacles for direct imaging of earth-like planets. Our EXOZODI project aims to detect and study exozodiacal dust and to explain its origin. We are carrying out the first large, near-infrared interferometric survey in the northern (CHARA/FLUOR) and southern (VLTI/PIONIER) hemispheres. Preliminary results suggest a detection rate of up to 30% around A to K type stars and interesting trends with spectral type and age. We fo...

Extracted data

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Kral, Quentin
Le Bouquin, Jean-Baptiste
Lebreton, J.
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June 2013

International audienceExozodiacal dust clouds are thought to be the extrasolar analogs of the Solar ...

Unraveling the mystery of exozodiacal dust

S. Ertel
J. -c. Augereau
O. Absil
A. Bonsor
Q. Kral
J. -b. Le Bouquin
J. Lebreton

October 2016

Abstract. Exozodiacal dust clouds are thought to be the extrasolar analogs of the Solar Sys-tem’s zo...

Latest results from the EXOZODI project

Bonsor, A.
Augereau, J. C.
Absil, Olivier
Raymond, S.
Ertel, S.
Thébault, P.

September 2013

High levels of warm dust observed in the inner regions of planetary systems are known as exozodis, r...

Prospects for the characterisation of exo-zodiacal dust with the VLTI

Ertel, S.
Absil, O.
Defrère, D.
Augereau, J. -C.
Mennesson, B.

January 2018

International audienceExo-zodiacal dust, exozodi for short, is warm (∼300 K) or hot (up to ∼2000 K) ...

Prevalence of exozodiacal dust

Defrere, Denis
Ertel, S.
Absil, Olivier
Danchi, W.
Eiroa, C.
Greaves, J.
Hinz, P.
Grant, K.
Leger, A.
Roberge, A.
Stapelfeldt, K.
Wolf, S.

January 2015

hen observing an extrasolar planetary system, the most luminous component after the star itself is g...

An Unbiased Near-infrared Interferometric Survey for Hot Exozodiacal Dust

Ertel, S.
Augereau, J.-C.
Absil, Olivier
Defrere, Denis
Le Bouquin, J.-B.
Marion, Lindsay
Bonsor, A.
Lebreton, J.

March 2015

Exozodiacal dust is warm or hot dust found in the inner regions of planetary systems orbiting main s...

Finding ExoEarths: The Problem of Exozodical Dust

Roberge, Aki

August 2009

Dust coming from asteroids and comets will strongly affect direct imaging and characterization of te...

Hot exozodiacal dust: an exocometary origin?

Sezestre, É.
Augereau, J.-C.
Thébault, P.

January 2019

International audienceContext. Near- and mid-infrared interferometric observations have revealed pop...

The HOSTS Survey for Exozodiacal Dust: Preliminary results and future prospects

September 2018

[abridged] The presence of large amounts of dust in the habitable zones of nearby stars is a signifi...

Studying hot exozodiacal dust with near-infrared interferometry

Absil, Olivier

July 2012

Since our first detection of a resolved near-infrared emission around the main sequence star Vega, w...

A near-infrared interferometric survey of debris-disk stars

S. Ertel
O. Absil
D. Defrère
J.-B. Le Bouquin
J.-C. Augereau
L. Marion
N. Blind
A. Bonsor
G. Bryden
J. Lebreton
J. Milli

November 2014

Context. Detecting and characterizing circumstellar dust is a way to study the architecture and evol...