SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1844505821> ?p ?o ?g. }

Showing items 1 to 100 of ±108 with 100 items per page.

W1844505821 endingPage "1760" @default.
W1844505821 startingPage "1751" @default.
W1844505821 abstract "The majority of discovered exoplanetary systems harbour a new class of planets, bodies typically several times more massive than Earth but orbiting their host stars well inside the orbit of Mercury. The origin of these close-in super-Earths and mini-Neptunes is a major unanswered question in planet formation. Unlike Earth, whose atmosphere contains $<10^{-6}$ its total mass, a large fraction of close-in planets have significant gaseous envelopes, containing $1 -10%$ or more of their total mass. It has been proposed that these close-in planets formed in situ either by delivery of $50-100M_{oplus}$ of rocky material to the inner disc, or in a disc enhanced relative to the MMSN. In both cases, final assembly of the planets occurs by giant impacts (GIs). Here we test the viability of these scenarios. We show that atmospheres accreted by isolation masses are small ($10^{-3}-10^{-2}$ the core mass) and that atmospheric mass-loss during GIs is significant, with typical post-GI atmospheres that are $8 times 10^{-4}$ the core mass. Such values are consistent with terrestrial planet atmospheres but more than an order of magnitude below atmospheric masses of $1-10%$ inferred for many close-in exoplanets. In the most optimistic scenario with no core luminosity, post-GI envelope accretion from a depleted gas disc yields atmospheric masses that are several per cent the core mass. If the gravitational potential energy due to the last mass doubling of the planet by GIs is released over the disc dissipation time-scale as core luminosity, then envelope masses are reduced by about an order of magnitude. Finally we show that radial drift time-scales due to gas drag for many isolation masses are shorter than typical disc lifetimes. Given these challenges, we conclude that most observed close-in planets with envelopes larger than several per cent likely formed at larger separations from their host stars." @default.
W1844505821 created "2016-06-24" @default.
W1844505821 creator A5023760393 @default.
W1844505821 creator A5051332336 @default.
W1844505821 date "2015-02-17" @default.
W1844505821 modified "2023-09-30" @default.
W1844505821 title "The formation of super-Earths and mini-Neptunes with giant impacts" @default.
W1844505821 cites W1970201714 @default.
W1844505821 cites W1990738379 @default.
W1844505821 cites W2003578705 @default.
W1844505821 cites W2005561978 @default.
W1844505821 cites W2005918256 @default.
W1844505821 cites W2012071609 @default.
W1844505821 cites W2014422618 @default.
W1844505821 cites W2020637107 @default.
W1844505821 cites W2031513034 @default.
W1844505821 cites W2049747765 @default.
W1844505821 cites W2059470845 @default.
W1844505821 cites W2068008066 @default.
W1844505821 cites W2083936836 @default.
W1844505821 cites W2096258061 @default.
W1844505821 cites W2099066749 @default.
W1844505821 cites W2108530185 @default.
W1844505821 cites W2116412082 @default.
W1844505821 cites W2118339586 @default.
W1844505821 cites W2132117032 @default.
W1844505821 cites W2139170529 @default.
W1844505821 cites W2145612370 @default.
W1844505821 cites W2149520698 @default.
W1844505821 cites W2155063694 @default.
W1844505821 cites W2158129300 @default.
W1844505821 cites W2947592794 @default.
W1844505821 cites W3098158938 @default.
W1844505821 cites W3098902607 @default.
W1844505821 cites W3099362172 @default.
W1844505821 cites W3100702394 @default.
W1844505821 cites W3103561509 @default.
W1844505821 cites W3103603022 @default.
W1844505821 cites W3104215668 @default.
W1844505821 cites W3106494761 @default.
W1844505821 doi "https://doi.org/10.1093/mnras/stv030" @default.
W1844505821 hasPublicationYear "2015" @default.
W1844505821 type Work @default.
W1844505821 sameAs 1844505821 @default.
W1844505821 citedByCount "141" @default.
W1844505821 countsByYear W18445058212015 @default.
W1844505821 countsByYear W18445058212016 @default.
W1844505821 countsByYear W18445058212017 @default.
W1844505821 countsByYear W18445058212018 @default.
W1844505821 countsByYear W18445058212019 @default.
W1844505821 countsByYear W18445058212020 @default.
W1844505821 countsByYear W18445058212021 @default.
W1844505821 countsByYear W18445058212022 @default.
W1844505821 countsByYear W18445058212023 @default.
W1844505821 crossrefType "journal-article" @default.
W1844505821 hasAuthorship W1844505821A5023760393 @default.
W1844505821 hasAuthorship W1844505821A5051332336 @default.
W1844505821 hasBestOaLocation W18445058211 @default.
W1844505821 hasConcept C121332964 @default.
W1844505821 hasConcept C1276947 @default.
W1844505821 hasConcept C154010619 @default.
W1844505821 hasConcept C163479331 @default.
W1844505821 hasConcept C173740370 @default.
W1844505821 hasConcept C196351480 @default.
W1844505821 hasConcept C200459643 @default.
W1844505821 hasConcept C2776401274 @default.
W1844505821 hasConcept C44870925 @default.
W1844505821 hasConcept C51244244 @default.
W1844505821 hasConcept C65440619 @default.
W1844505821 hasConcept C87355193 @default.
W1844505821 hasConcept C97355855 @default.
W1844505821 hasConceptScore W1844505821C121332964 @default.
W1844505821 hasConceptScore W1844505821C1276947 @default.
W1844505821 hasConceptScore W1844505821C154010619 @default.
W1844505821 hasConceptScore W1844505821C163479331 @default.
W1844505821 hasConceptScore W1844505821C173740370 @default.
W1844505821 hasConceptScore W1844505821C196351480 @default.
W1844505821 hasConceptScore W1844505821C200459643 @default.
W1844505821 hasConceptScore W1844505821C2776401274 @default.
W1844505821 hasConceptScore W1844505821C44870925 @default.
W1844505821 hasConceptScore W1844505821C51244244 @default.
W1844505821 hasConceptScore W1844505821C65440619 @default.
W1844505821 hasConceptScore W1844505821C87355193 @default.
W1844505821 hasConceptScore W1844505821C97355855 @default.
W1844505821 hasIssue "2" @default.
W1844505821 hasLocation W18445058211 @default.
W1844505821 hasLocation W18445058212 @default.
W1844505821 hasLocation W18445058213 @default.
W1844505821 hasLocation W18445058214 @default.
W1844505821 hasOpenAccess W1844505821 @default.
W1844505821 hasPrimaryLocation W18445058211 @default.
W1844505821 hasRelatedWork W1552220830 @default.
W1844505821 hasRelatedWork W2027318368 @default.
W1844505821 hasRelatedWork W2559212571 @default.
W1844505821 hasRelatedWork W2763847239 @default.
W1844505821 hasRelatedWork W2787088198 @default.
W1844505821 hasRelatedWork W3030965511 @default.
W1844505821 hasRelatedWork W3193679578 @default.