SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4285806411> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W4285806411 endingPage "L1" @default.
W4285806411 startingPage "L1" @default.
W4285806411 abstract "Abstract Close encounters between neutron stars and main-sequence stars occur in globular clusters and may lead to various outcomes. Here we study encounters resulting in the tidal disruption of the star. Using N -body models, we predict the typical stellar masses in these disruptions and the dependence of the event rate on the host cluster properties. We find that tidal disruption events occur most frequently in core-collapsed globular clusters and that roughly 25% of the disrupted stars are merger products (i.e., blue straggler stars). Using hydrodynamic simulations, we model the tidal disruptions themselves (over timescales of days) to determine the mass bound to the neutron star and the properties of the accretion disks formed. In general, we find roughly 80%–90% of the initial stellar mass becomes bound to the neutron star following disruption. Additionally, we find that neutron stars receive impulsive kicks of up to about 20 km s −1 as a result of the asymmetry of unbound ejecta; these kicks place these neutron stars on elongated orbits within their host cluster, with apocenter distances well outside the cluster core. Finally, we model the evolution of the (hypercritical) accretion disks on longer timescales (days to years after disruption) to estimate the accretion rate onto the neutron stars and accompanying spin-up. As long as ≳1% of the bound mass accretes onto the neutron star, millisecond spin periods can be attained. We argue the growing numbers of isolated millisecond pulsars observed in globular clusters may have formed, at least in part, through this mechanism. In the case of significant mass growth, some of these neutron stars may collapse to form low-mass (≲3 M ⊙ ) black holes." @default.
W4285806411 created "2022-07-19" @default.
W4285806411 creator A5023309913 @default.
W4285806411 creator A5037943334 @default.
W4285806411 creator A5038876766 @default.
W4285806411 creator A5050742735 @default.
W4285806411 creator A5068003012 @default.
W4285806411 creator A5080898367 @default.
W4285806411 date "2022-07-01" @default.
W4285806411 modified "2023-09-30" @default.
W4285806411 title "Formation of Low-mass Black Holes and Single Millisecond Pulsars in Globular Clusters" @default.
W4285806411 cites W1967700018 @default.
W4285806411 cites W1983739502 @default.
W4285806411 cites W1990670404 @default.
W4285806411 cites W1996232199 @default.
W4285806411 cites W1997391413 @default.
W4285806411 cites W1998104730 @default.
W4285806411 cites W2001126417 @default.
W4285806411 cites W2006074683 @default.
W4285806411 cites W2011022699 @default.
W4285806411 cites W2019974102 @default.
W4285806411 cites W2025117222 @default.
W4285806411 cites W2026294585 @default.
W4285806411 cites W2034856282 @default.
W4285806411 cites W2035879704 @default.
W4285806411 cites W2037771611 @default.
W4285806411 cites W2038347333 @default.
W4285806411 cites W2039226225 @default.
W4285806411 cites W2039548832 @default.
W4285806411 cites W2040665607 @default.
W4285806411 cites W2045307669 @default.
W4285806411 cites W2046069554 @default.
W4285806411 cites W2047504809 @default.
W4285806411 cites W2049319759 @default.
W4285806411 cites W2050444942 @default.
W4285806411 cites W2050855883 @default.
W4285806411 cites W2050931690 @default.
W4285806411 cites W2052182563 @default.
W4285806411 cites W2059068804 @default.
W4285806411 cites W2059798232 @default.
W4285806411 cites W2064883531 @default.
W4285806411 cites W2066401233 @default.
W4285806411 cites W2066406099 @default.
W4285806411 cites W2066882330 @default.
W4285806411 cites W2070717200 @default.
W4285806411 cites W2073799363 @default.
W4285806411 cites W2078067446 @default.
W4285806411 cites W2078308545 @default.
W4285806411 cites W2080581297 @default.
W4285806411 cites W2083021669 @default.
W4285806411 cites W2085488455 @default.
W4285806411 cites W2092078542 @default.
W4285806411 cites W2092999319 @default.
W4285806411 cites W2095500388 @default.
W4285806411 cites W2101328291 @default.
W4285806411 cites W2120013057 @default.
W4285806411 cites W2135884999 @default.
W4285806411 cites W2147582435 @default.
W4285806411 cites W2154984641 @default.
W4285806411 cites W2161573769 @default.
W4285806411 cites W2169311155 @default.
W4285806411 cites W2615768357 @default.
W4285806411 cites W2794134903 @default.
W4285806411 cites W2803246726 @default.
W4285806411 cites W2885692583 @default.
W4285806411 cites W3098300179 @default.
W4285806411 cites W3099284561 @default.
W4285806411 cites W3100139542 @default.
W4285806411 cites W3101104636 @default.
W4285806411 cites W3101585058 @default.
W4285806411 cites W3101879593 @default.
W4285806411 cites W3102127100 @default.
W4285806411 cites W3102863589 @default.
W4285806411 cites W3103091231 @default.
W4285806411 cites W3103406195 @default.
W4285806411 cites W3103664427 @default.
W4285806411 cites W3104119281 @default.
W4285806411 cites W3104444999 @default.
W4285806411 cites W3104642868 @default.
W4285806411 cites W3104917387 @default.
W4285806411 cites W3105325881 @default.
W4285806411 cites W3105921226 @default.
W4285806411 cites W3106084777 @default.
W4285806411 cites W3118504498 @default.
W4285806411 cites W3124019565 @default.
W4285806411 cites W3124333200 @default.
W4285806411 cites W3139507496 @default.
W4285806411 cites W3167744536 @default.
W4285806411 cites W3185199206 @default.
W4285806411 cites W3188980404 @default.
W4285806411 cites W3193982499 @default.
W4285806411 cites W3203789703 @default.
W4285806411 cites W3205254016 @default.
W4285806411 cites W4206306124 @default.
W4285806411 cites W4236755119 @default.
W4285806411 doi "https://doi.org/10.3847/2041-8213/ac7ec4" @default.
W4285806411 hasPublicationYear "2022" @default.
W4285806411 type Work @default.