SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3105483991> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W3105483991 endingPage "46" @default.
W3105483991 startingPage "46" @default.
W3105483991 abstract "Explaining variability observed in the accretion flows of black hole X-ray binary systems remains challenging, especially concerning timescales less than, or comparable to, the viscous timescale but much larger than the inner orbital period despite decades of research identifying numerous relevant physical mechanisms. We take a simplified but broad approach to study several mechanisms likely relevant to patterns of variability observed in the persistently high-soft Roche-lobe overflow system LMC X-3. Based on simple estimates and upper bounds, we find that physics beyond varying disk/corona bifurcation at the disk edge, Compton-heated winds, modulation of total supply rate via irradiation of the companion, and the likely extent of the partial hydrogen ionization instability is needed to explain the degree, and especially the pattern, of variability in LMC X-3 largely due to viscous dampening. We then show how evaporation--condensation may resolve or compound the problem given the uncertainties associated with this complex mechanism and our current implementation. We briefly mention our plans to resolve the question, refine and extend our model, and alternatives we have not yet explored." @default.
W3105483991 created "2020-11-23" @default.
W3105483991 creator A5048108048 @default.
W3105483991 creator A5069707097 @default.
W3105483991 date "2013-03-22" @default.
W3105483991 modified "2023-09-27" @default.
W3105483991 title "PROTOTYPING NON-EQUILIBRIUM VISCOUS-TIMESCALE ACCRETION THEORY USING LMC X-3" @default.
W3105483991 cites W1965783595 @default.
W3105483991 cites W1966450686 @default.
W3105483991 cites W1971479933 @default.
W3105483991 cites W1975131828 @default.
W3105483991 cites W1978618697 @default.
W3105483991 cites W1979714120 @default.
W3105483991 cites W1983389582 @default.
W3105483991 cites W1983999320 @default.
W3105483991 cites W1996001284 @default.
W3105483991 cites W1998512717 @default.
W3105483991 cites W1999417864 @default.
W3105483991 cites W2008281661 @default.
W3105483991 cites W2009098106 @default.
W3105483991 cites W2013437665 @default.
W3105483991 cites W2015222572 @default.
W3105483991 cites W2020450618 @default.
W3105483991 cites W2023148293 @default.
W3105483991 cites W2041255623 @default.
W3105483991 cites W2045844842 @default.
W3105483991 cites W2049319759 @default.
W3105483991 cites W2053149404 @default.
W3105483991 cites W2055256861 @default.
W3105483991 cites W2069772990 @default.
W3105483991 cites W2077719840 @default.
W3105483991 cites W2086750425 @default.
W3105483991 cites W2093984070 @default.
W3105483991 cites W2094164488 @default.
W3105483991 cites W2097472737 @default.
W3105483991 cites W2097876023 @default.
W3105483991 cites W2149532224 @default.
W3105483991 cites W2153082035 @default.
W3105483991 cites W2985443361 @default.
W3105483991 cites W3097997383 @default.
W3105483991 cites W3098009124 @default.
W3105483991 cites W3098122716 @default.
W3105483991 cites W3098574236 @default.
W3105483991 cites W3098595209 @default.
W3105483991 cites W3098906244 @default.
W3105483991 cites W3099416141 @default.
W3105483991 cites W3099677593 @default.
W3105483991 cites W3100182777 @default.
W3105483991 cites W3100918248 @default.
W3105483991 cites W3101337528 @default.
W3105483991 cites W3102218766 @default.
W3105483991 cites W3102220591 @default.
W3105483991 cites W3104075824 @default.
W3105483991 cites W3104354771 @default.
W3105483991 cites W3104769534 @default.
W3105483991 cites W3105542975 @default.
W3105483991 cites W3106297564 @default.
W3105483991 cites W3122920752 @default.
W3105483991 cites W3125033456 @default.
W3105483991 cites W3125403997 @default.
W3105483991 doi "https://doi.org/10.1088/0004-637x/767/1/46" @default.
W3105483991 hasPublicationYear "2013" @default.
W3105483991 type Work @default.
W3105483991 sameAs 3105483991 @default.
W3105483991 citedByCount "16" @default.
W3105483991 countsByYear W31054839912014 @default.
W3105483991 countsByYear W31054839912015 @default.
W3105483991 countsByYear W31054839912016 @default.
W3105483991 countsByYear W31054839912017 @default.
W3105483991 countsByYear W31054839912018 @default.
W3105483991 countsByYear W31054839912019 @default.
W3105483991 crossrefType "journal-article" @default.
W3105483991 hasAuthorship W3105483991A5048108048 @default.
W3105483991 hasAuthorship W3105483991A5069707097 @default.
W3105483991 hasBestOaLocation W31054839912 @default.
W3105483991 hasConcept C104954878 @default.
W3105483991 hasConcept C121332964 @default.
W3105483991 hasConcept C1276947 @default.
W3105483991 hasConcept C131722892 @default.
W3105483991 hasConcept C145148216 @default.
W3105483991 hasConcept C150846664 @default.
W3105483991 hasConcept C158622935 @default.
W3105483991 hasConcept C193786831 @default.
W3105483991 hasConcept C195803813 @default.
W3105483991 hasConcept C198291218 @default.
W3105483991 hasConcept C207821765 @default.
W3105483991 hasConcept C2776401274 @default.
W3105483991 hasConcept C2781349735 @default.
W3105483991 hasConcept C31258907 @default.
W3105483991 hasConcept C32224563 @default.
W3105483991 hasConcept C41008148 @default.
W3105483991 hasConcept C44870925 @default.
W3105483991 hasConcept C50341732 @default.
W3105483991 hasConcept C57879066 @default.
W3105483991 hasConcept C62520636 @default.
W3105483991 hasConcept C74172769 @default.
W3105483991 hasConcept C89305328 @default.
W3105483991 hasConceptScore W3105483991C104954878 @default.