SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2000291798> ?p ?o ?g. }

Showing items 1 to 100 of ±110 with 100 items per page.

W2000291798 abstract "Nuclear effective interactions are useful tools in astrophysical applications especially if one can guide the extrapolations to the extremes regions of isospin and density that are required to simulate dense, neutron-rich systems. Isospin extrapolations may be constrained in the laboratory by measuring the neutron skin thickness of a heavy nucleus, such as 208Pb. Similarly, future observations of massive neutron stars will constrain the extrapolations to the high-density domain. In this contribution we introduce a new relativistic effective interaction that is simultaneously constrained by the properties of finite nuclei, their collective excitations, and neutron-star properties. By adjusting two of the empirical parameters of the theory, one can efficiently tune the neutron skin thickness of 208Pb and the maximum neutron star mass. We illustrate this procedure in response to the recent interpretation of X-ray observations by Steiner, Lattimer, and Brown that suggests that the FSUGold effective interaction predicts neutron star radii that are too large and a maximum stellar mass that is too small. The new effective interaction is fitted to a neutron skin thickness in 208Pb of only R_n - R_p = 0.16 fm and a moderately large maximum neutron star mass of 1.94 Msun." @default.
W2000291798 created "2016-06-24" @default.
W2000291798 creator A5006828502 @default.
W2000291798 creator A5031185085 @default.
W2000291798 creator A5075293538 @default.
W2000291798 creator A5085594984 @default.
W2000291798 date "2010-11-11" @default.
W2000291798 modified "2023-09-30" @default.
W2000291798 title "Relativistic effective interaction for nuclei, giant resonances, and neutron stars" @default.
W2000291798 cites W1547913534 @default.
W2000291798 cites W1919396091 @default.
W2000291798 cites W1966168690 @default.
W2000291798 cites W1968880988 @default.
W2000291798 cites W1969081735 @default.
W2000291798 cites W1977357795 @default.
W2000291798 cites W1979429224 @default.
W2000291798 cites W1983394899 @default.
W2000291798 cites W1988197230 @default.
W2000291798 cites W2007709299 @default.
W2000291798 cites W2007779595 @default.
W2000291798 cites W2009707503 @default.
W2000291798 cites W2010683812 @default.
W2000291798 cites W2018766212 @default.
W2000291798 cites W2021064950 @default.
W2000291798 cites W2026976136 @default.
W2000291798 cites W2038127617 @default.
W2000291798 cites W2040366672 @default.
W2000291798 cites W2048760155 @default.
W2000291798 cites W2055846225 @default.
W2000291798 cites W2058345843 @default.
W2000291798 cites W2059690355 @default.
W2000291798 cites W2060487597 @default.
W2000291798 cites W2064830158 @default.
W2000291798 cites W2073454434 @default.
W2000291798 cites W2076752847 @default.
W2000291798 cites W2081726767 @default.
W2000291798 cites W2092994664 @default.
W2000291798 cites W2103383195 @default.
W2000291798 cites W2106558292 @default.
W2000291798 cites W2127103643 @default.
W2000291798 cites W2145018349 @default.
W2000291798 cites W2153924218 @default.
W2000291798 cites W2157588467 @default.
W2000291798 cites W2165591715 @default.
W2000291798 cites W3099325887 @default.
W2000291798 cites W3101008895 @default.
W2000291798 cites W3105880739 @default.
W2000291798 cites W3125691190 @default.
W2000291798 cites W4232314582 @default.
W2000291798 doi "https://doi.org/10.1103/physrevc.82.055803" @default.
W2000291798 hasPublicationYear "2010" @default.
W2000291798 type Work @default.
W2000291798 sameAs 2000291798 @default.
W2000291798 citedByCount "226" @default.
W2000291798 countsByYear W20002917982012 @default.
W2000291798 countsByYear W20002917982013 @default.
W2000291798 countsByYear W20002917982014 @default.
W2000291798 countsByYear W20002917982015 @default.
W2000291798 countsByYear W20002917982016 @default.
W2000291798 countsByYear W20002917982017 @default.
W2000291798 countsByYear W20002917982018 @default.
W2000291798 countsByYear W20002917982019 @default.
W2000291798 countsByYear W20002917982020 @default.
W2000291798 countsByYear W20002917982021 @default.
W2000291798 countsByYear W20002917982022 @default.
W2000291798 countsByYear W20002917982023 @default.
W2000291798 crossrefType "journal-article" @default.
W2000291798 hasAuthorship W2000291798A5006828502 @default.
W2000291798 hasAuthorship W2000291798A5031185085 @default.
W2000291798 hasAuthorship W2000291798A5075293538 @default.
W2000291798 hasAuthorship W2000291798A5085594984 @default.
W2000291798 hasBestOaLocation W20002917982 @default.
W2000291798 hasConcept C107229949 @default.
W2000291798 hasConcept C121332964 @default.
W2000291798 hasConcept C152568617 @default.
W2000291798 hasConcept C185544564 @default.
W2000291798 hasConcept C190284468 @default.
W2000291798 hasConcept C192887742 @default.
W2000291798 hasConcept C206191943 @default.
W2000291798 hasConcept C4397270 @default.
W2000291798 hasConcept C44870925 @default.
W2000291798 hasConceptScore W2000291798C107229949 @default.
W2000291798 hasConceptScore W2000291798C121332964 @default.
W2000291798 hasConceptScore W2000291798C152568617 @default.
W2000291798 hasConceptScore W2000291798C185544564 @default.
W2000291798 hasConceptScore W2000291798C190284468 @default.
W2000291798 hasConceptScore W2000291798C192887742 @default.
W2000291798 hasConceptScore W2000291798C206191943 @default.
W2000291798 hasConceptScore W2000291798C4397270 @default.
W2000291798 hasConceptScore W2000291798C44870925 @default.
W2000291798 hasIssue "5" @default.
W2000291798 hasLocation W20002917981 @default.
W2000291798 hasLocation W20002917982 @default.
W2000291798 hasOpenAccess W2000291798 @default.
W2000291798 hasPrimaryLocation W20002917981 @default.
W2000291798 hasRelatedWork W1968243296 @default.
W2000291798 hasRelatedWork W1970734070 @default.
W2000291798 hasRelatedWork W2059783234 @default.
W2000291798 hasRelatedWork W2151560968 @default.
W2000291798 hasRelatedWork W2367940350 @default.