2018
DOI: 10.1051/0004-6361/201833320
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Traces of exomoons in computed flux and polarization phase curves of starlight reflected by exoplanets

Abstract: Context. Detecting moons around exoplanets is a major goal of current and future observatories. Moons are suspected to influence rocky exoplanet habitability, and gaseous exoplanets in stellar habitable zones could harbor abundant and diverse moons to target in the search for extraterrestrial habitats. Exomoons contribute to exoplanetary signals but are virtually undetectable with current methods. Aims. We identify and analyze traces of exomoons in the temporal variation of total and polarized fluxes of starli… Show more

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Cited by 6 publications
(3 citation statements)
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“…Observationally, several different ways have been proposed for the search of exomoons (Kipping et al 2009;Simon et al 2009;Liebig & Wambsganss 2010;Peters & Turner 2013;Heller 2014;Agol et al 2015;Noyola et al 2016;Sengupta & Marley 2016;Forgan 2017;Lukić 2017;Berzosa Molina et al 2018;Vanderburg et al 2018). Transitbased techniques are the most promising methods given current observational capabilities, e.g.…”
Section: Introductionmentioning
confidence: 99%
“…Observationally, several different ways have been proposed for the search of exomoons (Kipping et al 2009;Simon et al 2009;Liebig & Wambsganss 2010;Peters & Turner 2013;Heller 2014;Agol et al 2015;Noyola et al 2016;Sengupta & Marley 2016;Forgan 2017;Lukić 2017;Berzosa Molina et al 2018;Vanderburg et al 2018). Transitbased techniques are the most promising methods given current observational capabilities, e.g.…”
Section: Introductionmentioning
confidence: 99%
“…Ford et al 2011;Agol & Fabrycky 2017), for which analytic work (Agol et al 2005;Nesvorný & Morbidelli 2008;Nesvorný 2009;Lithwick et al 2012;Deck & Agol 2015;Agol & Deck 2016;Hadden & Lithwick 2016) has also yielded fruitful results. Although exoplanetary literature rarely distinguishes umbral, penumbral, and antumbral cases from one another, recently Berzosa Molina et al (2018) have analysed these different cases in flux and polarization phase curves of exoplanets with orbiting exomoons.…”
Section: Introductionmentioning
confidence: 99%
“…For the majority of exoplanet-exomoon phase curves, the lunar component is undetectable to the current technology of transits observations, and future surveys would require a photometric precision of a few parts per million (Forgan 2017, but see again . Nevertheless, the detectability of exomoons has been proposed feasible with current or near-future technology and a variety of methods: microlensing (Han & Han 2002), photocentric transit timing variation (Simon et al 2007(Simon et al , 2015, modulation of planetary radio emissions (Noyola et al 2014), spectroastrometry (Agol et al 2015), polarization of transits (Berzosa Molina et al 2018), radial velocity (Vanderburg et al 2018, and transits of the plasma torus produced by a satellite (Ben-Jaffel & Ballester 2014; see the reviews by Cabrera & Schneider 2007, Perryman 2018, and Heller 2018. In particular, the European Space Agency (ESA) mission CHaraterising ExOPlanet Satellite (CHEOPS) could detect Earth-sized exomoons with the transit method (Simon et al 2015).…”
mentioning
confidence: 99%